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C99 has been around for over 10 years, but support for it has been slow coming, so most developers have stuck with C89. Even today, I'm sometimes mildly surprised when I come across C99 features in C code.

Now that most major compilers support C99 (MSVC being a notable exception, and some embedded compilers also lagging behind), I feel that developers who work with C probably ought to know about what C99 features are available to them. Some of the features are just common features that were never standardized before (snprintf, for instance), or are familiar from C++ (flexible variable declaration placement, or single-line // comments), but some of the new features were first introduced in C99 and are unfamiliar to many programmers.

What do you find the most useful new features in C99?

For reference, the C99 standard (labelled as a draft, but identical to the updated standard, as far as I know), the list of new features, and the GCC C99 implementation status.

One feature per answer, please; feel free to leave multiple answers. Short code examples demonstrating new features are encouraged.

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closed as not constructive by dmckee, DocMax, David, Matteo, Bo Persson Nov 24 '12 at 8:30

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2  
There should be a similar wiki for features that people hate in C99! –  Alok Singhal Jan 12 '10 at 6:25
    
Well, there was a question about harmful or unsupported C99 features stackoverflow.com/questions/1898890/… –  Brian Campbell Jan 12 '10 at 6:28
    
Thanks. You should change the link text to indicate that it's a draft, not the actual standard, and link to n1256 while you're at it :-). BTW, looking at gcc.gnu.org/c99status.html, I wouldn't say most of C99 is supported by gcc. And since gcc is one of the most widely used C compilers, ... –  Alok Singhal Jan 12 '10 at 6:33
2  
Note that in the embedded processor arena, C99 may still not be well supported. –  Craig McQueen Jan 12 '10 at 6:50
1  
@Alok I would call that level of support most of the features; I suppose it depends on how you define it, but I think most of the significant features that people want to use are supported, leaving aside a few library issues. @Craig Fair enough, added a disclaimer about embedded compilers. –  Brian Campbell Jan 12 '10 at 7:06

17 Answers 17

I'm so used to typing

for (int i = 0; i < n; ++i) { ... }

in C++ that it's a pain to use a non-C99 compiler where I am forced to say

int i;
for (i = 0; i < n; ++i ) { ... }
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35  
Besides, it narrows the scope of the int variable, which is always a good thing ^^ –  helpermethod Jan 12 '10 at 7:02
    
That would be my pick as well. –  figurassa Jan 12 '10 at 13:52
1  
@Oliver <sarcasm>but then the instructions sub esp, 4 and add esp, 4 are removed!</sarcasm> –  Cole Johnson Nov 14 '12 at 23:03

stdint.h, which defines int8_t, uint8_t, etc. No more having to make non-portable assumptions about how wide your integers are.

uint32_t truth = 0xDECAFBAD;
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16  
Best hex phrase since DE:AD:BE:EF:CA:FE. –  Kevin L. Jan 12 '10 at 19:43
    
What's decafbad supposed to mean? –  Pacerier Sep 21 '13 at 4:18
1  
@Pacerier It's just an arbitrarty hexadecimal constant used to illustrate the example. But for humor value, it spells "decaf bad", implying that decaffeinated coffee is inferior to the real thing. –  Brian Campbell Sep 21 '13 at 17:58
2  
ok, I can't relate to their humor... –  Pacerier Sep 21 '13 at 18:58

I think that the new initializer mechanisms are extremely important.

struct { int x, y; } a[10] = { [3] = { .y = 12, .x = 1 } };

OK - not a compelling example, but the notation is accurate. You can initialize specific elements of an array, and specific members of a structure.

Maybe a better example would be this - though I'd admit it isn't hugely compelling:

enum { Iron = 26, Aluminium = 13, Beryllium = 4, ... };

const char *element_names[] =
{
    [Iron]      = "Iron",
    [Aluminium] = "Aluminium",
    [Beryllium] = "Beryllium",
    ...
};
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5  
That is a compelling demonstration. There is a huge amount of enum-tables with corresponding string-tables out there. –  u0b34a0f6ae Nov 4 '11 at 9:18
1  
Defines could also work –  Cole Johnson Nov 14 '12 at 23:05
3  
@ColeJohnson: If you look carefully at the second example, you will observe that the initializers are listed out of order — but will work correctly. That can't be done simply with defines. The first example initializes only index 4 of the array; that can't be done simply with defines, either. –  Jonathan Leffler Feb 25 '13 at 15:26
    
It should also be noted that using the same index more than once will override the first usage with the second - see my question here, for example: stackoverflow.com/questions/16742467/… –  johnny May 24 '13 at 19:49

Support for one-line comments beginning with //.

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5  
+1 ALL compilers I know already support this. It's about time it's mentioned in the standard. –  slebetman Sep 18 '10 at 22:52

Variable length arrays:

int x;
scanf("%d", &x);
int a[x];
for (int i = 0; i < x; ++i)
    a[i] = i * i;
for (int i = 0; i < x; ++i)
    printf("%d\n", a[i]);
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Being able to declare variables at locations other than the start of a block.

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1  
I'm not so keen on this. To my mind, variables should not only be brought into scope when needed, but removed from scope when not needed. Variables mid-block almost invariably hang around in scope longer than they should. –  supercat Mar 15 '11 at 15:28
2  
@supercat you'd prefer int a; int b; a = f(); b = g(); to int a = f(); int b = g(); ? declaring a variable close to where it gets initialized is huge for reducing errors. –  Ryan Haining Jun 17 at 21:26
    
@RyanHaining: Alternatively, create a nested scope block (I just wish there was a standard syntax which said "this block is just for scoping"; one can use easily use a null macro for that purpose, but that seems a bit ugly. –  supercat Jun 17 at 22:06

Variadic macros. Makes it easier to generate boilerplate code with unlimited number of arguments.

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snprintf() - seriously, it's worth a lot to be able to do safe formatted strings.

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Very true. I was going to add this answer myself if no one else did. –  Brian Campbell Jan 12 '10 at 18:16

Compound literals. Setting structures member-by-member is so '89 ;)

You can also use them to get pointers to objects with automatic storage duration without declaring unnecessary variables, eg

foo(&(int){ 4 });

insteand of

int tmp = 4;
foo(&tmp);
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9  
no &4? :((((((( –  L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ May 2 '10 at 22:47

The bool type.

You can now do something like that:

bool v = 5;

printf("v=%u\n", v);

will print

1
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1  
whoever thought of this is pure genious –  L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ May 2 '10 at 22:44
2  
Not v=1? Magic! –  Guilherme Bernal Feb 23 at 22:30
    
No, bool in C99 coerces the value assigned to the variable to be always 1 or 0. That's why you have to be carefull if you have code that runs on a C99 compiler and on an older one with "simulated" booltype. Using !! will make that portable. v = !!5; has the same semantic, but is not as readable. –  tristopia Feb 24 at 11:04

Flexible array members.

6.7.2.1 Structure and union specifiers

As a special case, the last element of a structure with more than one named member may have an incomplete array type; this is called a flexible array member. With two exceptions, the flexible array member is ignored. First, the size of the structure shall be equal to the offset of the last element of an otherwise identical structure that replaces the flexible array member with an array of unspecified length) Second, when a . (or ->) operator has a left operand that is (a pointer to) a structure with a flexible array member and the right operand names that member, it behaves as if that member were replaced with the longest array (with the same element type) that would not make the structure larger than the object being accessed; the offset of the array shall remain that of the flexible array member, even if this would differ from that of the replacement array. If this array would have no elements, it behaves as if it had one element but the behavior is undefined if any attempt is made to access that element or to generate a pointer one past it.

Example:

typedef struct {
  int len;
  char buf[];
} buffer;

int bufsize = 100;
buffer *b = malloc(sizeof(buffer) + sizeof(int[bufsize]));
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+1 for finally making this kosher. It's in every TCP/IP socket code I've ever seen. –  slebetman Sep 18 '10 at 22:55
    
Indeed, I would consider it far more kosher than the common trick of using buf[1] and subtracting 1 from the malloc size. The trick may be common, but I would regard it as Undefined Behavior (proper would be using buf[MAX_SIZE] and subtracting MAX_SIZE from the malloc size) since a compiler's generated indexing code may depend upon the perceived size of buf[]. –  supercat Mar 15 '11 at 15:26

Support for inline functions.

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In practice, GCC usually ignores the inline keyword when deciding which functions to inline, and automatically inlines things based on its own heuristics unless you force it to do otherwise. –  daf Jan 12 '10 at 15:53
4  
daf: inline still helps though, because it allows you to define the function in more than one translation unit - so you can put it in a header file, which gives cross-module inlining opportunities. –  caf Jan 13 '10 at 1:07
    
@daf inline __attribute__((force_inline)) –  Cole Johnson Feb 25 '13 at 23:34

Unicode escape sequence support:

printf("It's all \u03B5\u03BB\u03BB\u03B7\u03BD\u03B9\u03BA\u03AC to me.\n");

Or even, literal Unicode characters:

printf("日本語\n");

(note: may not work depending on your locale; portable support for different encodings will take more work than this)

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Compound literals, already mentioned but here's my compelling example:

struct A *a = malloc(sizeof(*a));
*a = (struct A){0};  /* full zero-initialization   */
/* or */
*a = (struct A){.bufsiz=1024, .fd=2};   /* rest are zero-initialized.  */

It's a clear way to initialize data even if it's on the heap. There is no way to forget to zero-initialize something.

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The restrict keyword. Especially when you crunch numbers...

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Personally, I like the acknowledgment of IEC 60559:1989 (Binary floating-point arithmetic for microprocessor systems) and much better floating-point support.

In a similar vein, setting and querying the floating-point rounding mode, checking for Nan/Infinity/subnormal numbers, etc., is great to have.

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Well, MS doesn't like to do this –  Cole Johnson Nov 14 '12 at 23:06

Hexadecimal floating point constants (0x1.8p0f) and conversion specifiers (%a, %A). If you deal with low-level numerical details frequently, these are an enormous improvement over decimal literals and conversions.

They save you from worries about rounding when specifying constants for an algorithm, and are immensely useful for debugging low-level floating-point code.

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1  
Yep, I just used these the other day when trying to explain to someone how floating point numbers work in another Stack Overflow question. –  Brian Campbell Jan 12 '10 at 19:41

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