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For example, I recently came across this in the linux kernel:

/* Force a compilation error if condition is true */
#define BUILD_BUG_ON(condition) ((void)sizeof(char[1 - 2*!!(condition)]))

So, in your code, if you have some structure which must be, say a multiple of 8 bytes in size, maybe because of some hardware constraints, you can do:

BUILD_BUG_ON((sizeof(struct mystruct) % 8) != 0);

and it won't compile unless the size of struct mystruct is a multiple of 8, and if it is a multiple of 8, no runtime code is generated at all.

Another trick I know is from the book "Graphics Gems" which allows a single header file to both declare and initialize variables in one module while in other modules using that module, merely declare them as externs.

#ifdef DEFINE_MYHEADER_GLOBALS
#define GLOBAL
#define INIT(x, y) (x) = (y)
#else
#define GLOBAL extern
#define INIT(x, y)
#endif

GLOBAL int INIT(x, 0);
GLOBAL int somefunc(int a, int b);

With that, the code which defines x and somefunc does:

#define DEFINE_MYHEADER_GLOBALS
#include "the_above_header_file.h"

while code that's merely using x and somefunc() does:

#include "the_above_header_file.h"

So you get one header file that declares both instances of globals and function prototypes where they are needed, and the corresponding extern declarations.

So, what are your favorite C programming tricks along those lines?

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9  
This seems more like C preprocessor tricks. –  jmucchiello Mar 1 '09 at 10:24

37 Answers 37

Rusty actually produced a whole set of build conditionals in ccan, check out the build assert module:

#include <stddef.h>
#include <ccan/build_assert/build_assert.h>

struct foo {
        char string[5];
        int x;
};

char *foo_string(struct foo *foo)
{
        // This trick requires that the string be first in the structure
        BUILD_ASSERT(offsetof(struct foo, string) == 0);
        return (char *)foo;
}

There are lots of other helpful macros in the actual header, which are easy to drop into place.

I try, with all of my might to resist the pull of the dark side (and preprocessor abuse) by sticking mostly to inline functions, but I do enjoy clever, useful macros like the ones you described.

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Another nice pre-processor "trick" is to use the "#" character to print debugging expressions. For example:

#define MY_ASSERT(cond) \
  do { \
    if( !(cond) ) { \
      printf("MY_ASSERT(%s) failed\n", #cond); \
      exit(-1); \
    } \
  } while( 0 )

edit: the code below only works on C++. Thanks to smcameron and Evan Teran.

Yes, the compile time assert is always great. It can also be written as:

#define COMPILE_ASSERT(cond)\
     typedef char __compile_time_assert[ (cond) ? 0 : -1]
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1  
Yes, I tried it. I cut and pasted the error message from the compiler, which was gcc. –  smcameron Mar 1 '09 at 7:11
1  
@Gilad: it is legal in c++ to have redundant typedefs, but not in c. –  Evan Teran Mar 1 '09 at 7:18

Two good source books for this sort of stuff are The Practice of Programming and Writing Solid Code. One of them (I don't remember which) says: Prefer enum to #define where you can, because enum gets checked by the compiler.

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1  
AFAIK, in C89/90 there is NO typechecking for enums. enums are just somehow more convenient #defines. –  cschol Mar 7 '09 at 23:35

If we are talking about c tricks my favourite has to be Duff's Device for loop unrolling! I'm just waiting for the right opportunity to come along for me to actually use it in anger...

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4  
I've used it once to produce a measurable performance gain, but these days it's not useful on a lot of hardware. Always profile! –  Dan Olson Mar 1 '09 at 8:12
6  
Yeah, the sort of people who don't understand the context Duff's device was created in: "code readability" is useless if the code is not fast enough to work. Probably none of the people who downvoted you have ever had to code for hard realtime. –  Rob K Mar 3 '09 at 18:09
1  
+1, I have actually needed to use Duff's device a few times. The first time was a loop that basically just copied stuff and did some small transformation on the way. It was much, much faster than a simple memcpy() in that architecture. –  Makis Jun 30 '09 at 9:24
3  
The anger will be from your colleagues and successors who have to maintain your code after you. –  Jonathan Leffler Nov 2 '09 at 15:50
1  
As I said, I am still waiting for the right opportunity - but no one has annoyed me enough yet. I have been writing C for about 25 years now, I think I first came across Duff's device in the early 90s and I have not had to use it yet. As others have commented this kind of trick is less and less useful now as compilers get better at this kind of optimization. –  Jackson Nov 2 '09 at 16:58

I like the "struct hack" for having a dynamically sized object. This site explains it pretty well too (though they refer to the C99 version where you can write "str[]" as the last member of a struct). you could make a string "object" like this:

struct X {
    int len;
    char str[1];
};

int n = strlen("hello world");
struct X *string = malloc(sizeof(struct X) + n);
strcpy(string->str, "hello world");
string->len = n;

here, we've allocated a structure of type X on the heap that is the size of an int (for len), plus the length of "hello world", plus 1 (since str[1] is included in the sizeof(X).

It is generally useful when you want to have a "header" right before some variable length data in the same block.

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4  
"... the C99 version where you can write "str[]"" I've seen zero sized arrays in such a context, like str[0]; fairly often. I think it's C99. I know older compilers complain about zero sized arrays though. –  smcameron Mar 1 '09 at 8:27
3  
I like this one as well, however, you should use something like malloc(offsetof(X, str) + numbytes) otherwise things will go wrong because of padding and alignment issues. E.g. sizeof(struct X) might be 8, not 5. –  Fozi Nov 2 '09 at 16:11
3  
@Fozi: I actually don't think that would be a problem. Since this version has str[1] (not str[]) the 1 byte of str is included in the sizeof(struct X). This includes any padding between len and str. –  Evan Teran Jul 8 '10 at 20:42
2  
@Rusky: How would that negatively effect anything? Suppose there is "padding" after str. OK, When I allocate sizeof(struct X) + 10 Then this makes str effectively 10 - sizeof(int) (or more, since we said there is padding) big. This overlays str and any padding after it. The only way that it would have any difference, is if there were a member after str which breaks the whole thing anyway, flexible members must be the last. Any padding at the end will only possibly cause too much to be allocated. Please provide a specific example of how it could actually go wrong. –  Evan Teran Oct 14 '11 at 15:07

I wouldn't really call it a favorite trick, since I've never used it, but the mention of Duff's Device reminded me of this article about implementing Coroutines in C. It always gives me a chuckle, but I'm sure it could be useful some time.

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I don't know if it's a trick. But when I was a junior in university a friend of mine and I were completing a lab in our intro C++ course. We had to take a person's name and capitalize it, display it back, and then give them the option of displaying their name "last, first". For this lab we were prohibited from using array notation.

He showed me this code, I thought it was the coolest thing I'd seen at the time.

char * ptr = "first name";

//flies to the end of the array, regardless of length
while( *ptr++ );
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3  
In your example, you can no longer reliably go back to the beginning of your array. It would make more sense to declare a second char *, initially pointing to the same place as ptr, but increment this second char * instead. –  dreamlax Mar 1 '09 at 20:58
1  
Yes, there is more code obviously. –  Chris Mar 1 '09 at 22:17
1  
Hopefully so -- so far this code does nothing worthy... –  Leonardo Herrera Nov 2 '09 at 16:14

Once a mate of mine and I redefined return to find a tricky stack corruption bug.

Something like:

#define return DoSomeStackCheckStuff, return
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4  
Hopefully that was #define'd in the function body and #undefine'd at the end! –  strager Mar 1 '09 at 20:40
8  
@strager But that would make it basically useless. The whole point is to add some tracing to every function call. Otherwise you would just add a call to DoSomeStackCheckStuff to the functions you wanted to trace. –  Clueless Oct 14 '11 at 15:33
1  
@gilligan I don't think this is the type of thing you leave enabled all the time; it seems pretty handy for one-shot debugging work. –  sunetos Oct 14 '11 at 17:01
#if TESTMODE == 1    
    debug=1;
    while(0);     // Get attention
#endif

The while(0); has no effect on the program, but the compiler will issue a warning about "this does nothing", which is enough to get me to go look at the offending line and then see the real reason I wanted to call attention to it.

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9  
couldn't you use #warning instead ? –  Stefano Borini Nov 2 '09 at 16:07

This one comes from the book 'Enough rope to shoot yourself in the foot':

In the header declare

#ifndef RELEASE
#  define D(x) do { x; } while (0)
#else
#  define D(x)
#endif

In your code place testing statements eg:

D(printf("Test statement\n"));

The do/while helps in case the contents of the macro expand to multiple statements.

The statement will only be printed if '-D RELEASE' flag for compiler is not used.

You can then eg. pass the flag to your makefile etc.

Not sure how this works in windows but in *nix it works well

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3  
@MarkJ: NO. The way it is, "if(a) D(x);" expands to "if(a);" which is perfectly fine. If you had D(x) expand to {}, then "if(a)if(b)D(x);else foo();" would INCORRECTLY expand to "if(a)if(b){};else foo();", causing the "else foo()" to match with the second if instead of the first if. –  Adam Rosenfield Mar 1 '09 at 20:50
3  
Enough rope indeed. –  Matt B. Nov 2 '09 at 17:11
1  
@AdamRosenfield: Using #define D(x) do { } while(0) instead handles that case (and can be applied to the branch that inserts x as well for consistency) –  rpetrich Oct 14 '11 at 14:40

I'm fond of using = {0}; to initialize structures without needing to call memset.

struct something X = {0};

This will initialize all of the members of the struct (or array) to zero (but not any padding bytes - use memset if you need to zero those as well).

But you should be aware there are some issues with this for large, dynamically allocated structures.

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5  
Not needed for static variables. Global variables may be zeroed, but it's not a requirement. –  Jamie Oct 23 '09 at 13:23
4  
I sometimes extend this to: const struct something zero_something = { 0 }; and then I can reset a variable on the fly with struct something X = zero_something; or part-way through a routine I can use 'X = zero_something;'. The only possible objection is that it involves reading data from somewhere; these days, a 'memset()' might be quicker - but I like the clarity of the assignment, and it is also possible to use other-than-zero values in the initializer too (and memset() followed by tweaks to individual member may be slower than a simple copy). –  Jonathan Leffler Nov 2 '09 at 15:55

Object oriented code with C, by emulating classes.

Simply create a struct and a set of functions that take a pointer to that struct as a first parameter.

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2  
Is there still something out there that translates C++ into C, like cfront used to? –  MarkJ Mar 1 '09 at 15:13
11  
This is hardly object orientation. For OO with inheritance, you'll need to add some kind of virtual function table to your object struct, which can be overloaded by "subclasses". There are lots of half-baked "C with classes" -style frameworks out there for this purpose but I recommend staying out of it. –  exDM69 Oct 14 '11 at 13:10
3  
@exDM69, object orientation is as much a way of thinking about a problem as it is a coding paradigm; you can do it successfully without inheritance. I did this on a few projects before jumping full bore into C++. –  Mark Ransom Oct 14 '11 at 14:43

Bit-shifts are only defined up to a shift-amount of 31 (on a 32 bit integer)..

What do you do if you want to have a computed shift that need to work with higher shift-values as well? Here is how the Theora vide-codec does it:

unsigned int shiftmystuff (unsigned int a, unsigned int v)
{
  return (a>>(v>>1))>>((v+1)>>1);
}

Or much more readable:

unsigned int shiftmystuff (unsigned int a, unsigned int v)
{
  unsigned int halfshift = v>>1;
  unsigned int otherhalf = (v+1)>>1;

  return (a >> halfshift) >> otherhalf; 
}

Performing the task the way shown above is a good deal faster than using a branch like this:

unsigned int shiftmystuff (unsigned int a, unsigned int v)
{
  if (v<=31)
    return a>>v;
  else
    return 0;
}
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2  
On my machine, gcc-4.3.2 gets rid of the branch in the second one by using a cmov instruction (conditional move) –  Adam Rosenfield Mar 1 '09 at 20:42
3  
"a good deal faster than using a branch": the difference being that the branch is correct for all values of v, whereas the halfshift trick only doubles the allowable range to 63 on a 32-bit architecture, and 127 on a 64-bit one. –  Pascal Cuoq Oct 14 '11 at 13:18

using __FILE__ and __LINE__ for debugging

#define WHERE fprintf(stderr,"[LOG]%s:%d\n",__FILE__,__LINE__);
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6  
On some compilers you get FUNCTION as well. –  JBRWilkinson Nov 2 '09 at 16:11
11  
__FUNCTION__is just an alias for __func__, and __func__ is in c99. Quite handy. __PRETTY_FUNCTION__ in C (GCC) is just another alias for __func__, but in C++ it will get you the full function signature. –  sklnd Oct 14 '11 at 15:24

Using a stupid macro trick to make record definitions easier to maintain.

#define COLUMNS(S,E) [(E) - (S) + 1]

typedef struct
{
    char studentNumber COLUMNS( 1,  9);
    char firstName     COLUMNS(10, 30);
    char lastName      COLUMNS(31, 51);

} StudentRecord;
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I think the use of userdata pointers is pretty neat. A fashion losing ground nowdays. It's not so much a C feature but is pretty easy to use in C.

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1  
I wish that I understood what you meant here. Could you explain more? What is a userdata pointer? –  Zan Lynx Mar 2 '09 at 14:49
1  
Plz see here stackoverflow.com/questions/602826/… –  epatel Mar 3 '09 at 10:29

In C99

typedef struct{
    int value;
    int otherValue;
} s;

s test = {.value = 15, .otherValue = 16};

/* or */
int a[100] = {1,2,[50]=3,4,5,[23]=6,7};
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For creating a variable which is read-only in all modules except the one it's declared in:

// Header1.h:

#ifndef SOURCE1_C
   extern const int MyVar;
#endif


// Source1.c:

#define SOURCE1_C
#include Header1.h // MyVar isn't seen in the header

int MyVar; // Declared in this file, and is writeable


// Source2.c

#include Header1.h // MyVar is seen as a constant, declared elsewhere
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1  
This does not produce variable that is readonly only in some compilation units. This produces undefined behavior (see p. 6.2.7.2 of ISO 9899 and also p. 6.7.3.5). –  Ales Hakl Oct 16 '11 at 17:43

Declaring array's of pointer to functions for implementing finite state machines.

int (* fsm[])(void) = { ... }

The most pleasing advantage is that it is simple to force each stimulus/state to check all code paths.

In an embedded system, I'll often map an ISR to point to such a table and revector it as needed (outside the ISR).

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I use X-Macros to to let the pre-compiler generate code. They are especially useful for defining error values and associated error strings in one place, but they can go far beyond that.

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C99 offers some really cool stuff using anonymous arrays:

Removing pointless variables

{
    int yes=1;
    setsockopt(yourSocket, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof(int));
}

becomes

setsockopt(yourSocket, SOL_SOCKET, SO_REUSEADDR, (int[]){1}, sizeof(int));

Passing a Variable Amount of Arguments

void func(type* values) {
    while(*values) {
        x = *values++;
        /* do whatever with x */
    }
}

func((type[]){val1,val2,val3,val4,0});

Static linked lists

int main() {
    struct llist { int a; struct llist* next;};
    #define cons(x,y) (struct llist[]){{x,y}}
    struct llist *list=cons(1, cons(2, cons(3, cons(4, NULL))));
    struct llist *p = list;
    while(p != 0) {
    	printf("%d\n", p->a);
    	p = p->next;
    }
}

Any I'm sure many other cool techniques I haven't thought of.

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2  
I believe your first example can also be written as &(int){1}, if you want to make it slightly more clear what your intent here is. –  Kevin Ballard Oct 14 '11 at 21:37

Here is an example how to make C code completly unaware about what is actually used of HW for running the app. The main.c does the setup and then the free layer can be implemented on any compiler/arch. I think it is quite neat for abstracting C code a bit, so it does not get to be to spesific.

Adding a complete compilable example here.

/* free.h */
#ifndef _FREE_H_
#define _FREE_H_
#include <stdio.h>
#include <string.h>
typedef unsigned char ubyte;

typedef void (*F_ParameterlessFunction)() ;
typedef void (*F_CommandFunction)(ubyte byte) ;

void F_SetupLowerLayer (
F_ParameterlessFunction initRequest,
F_CommandFunction sending_command,
F_CommandFunction *receiving_command);
#endif

/* free.c */
static F_ParameterlessFunction Init_Lower_Layer = NULL;
static F_CommandFunction Send_Command = NULL;
static ubyte init = 0;
void recieve_value(ubyte my_input)
{
    if(init == 0)
    {
    	Init_Lower_Layer();
    	init = 1;
    }
    printf("Receiving 0x%02x\n",my_input);
    Send_Command(++my_input);
}

void F_SetupLowerLayer (
    F_ParameterlessFunction initRequest,
    F_CommandFunction sending_command,
    F_CommandFunction *receiving_command)
{
    Init_Lower_Layer = initRequest;
    Send_Command = sending_command;
    *receiving_command = &recieve_value;
}

/* main.c */
int my_hw_do_init()
{
    printf("Doing HW init\n");
    return 0;
}
int my_hw_do_sending(ubyte send_this)
{
    printf("doing HW sending 0x%02x\n",send_this);
    return 0;
}
F_CommandFunction my_hw_send_to_read = NULL;

int main (void)
{
    ubyte rx = 0x40;
    F_SetupLowerLayer(my_hw_do_init,my_hw_do_sending,&my_hw_send_to_read);

    my_hw_send_to_read(rx);
    getchar();
    return 0;
}
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4  
Care to elaborate, maybe explaining a practical use? –  Leonardo Herrera Nov 2 '09 at 16:17

Our codebase has a trick similar to

#ifdef DEBUG

#define my_malloc(amt) my_malloc_debug(amt, __FILE__, __LINE__)
void * my_malloc_debug(int amt, char* file, int line)
#else
void * my_malloc(int amt)
#endif
{
    //remember file and line no. for this malloc in debug mode
}

which allows for the tracking of memory leaks in debug mode. I always thought this was cool.

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While reading Quake 2 source code I came up with something like this:

double normals[][] = {
  #include "normals.txt"
};

(more or less, I don't have the code handy to check it now).

Since then, a new world of creative use of the preprocessor opened in front of my eyes. I no longer include just headers, but entire chunks of code now and then (it improves reusability a lot) :-p

Thanks John Carmack! xD

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13  
You can't say carmack in an optimization thread without mentioning the fast inverse sqrt that was in the quake source. en.wikipedia.org/wiki/Fast_inverse_square_root –  pg1989 Oct 14 '11 at 14:56
2  
@RoryHarvey: From what I could find when looking it up, it seems it was purely empirical. Some studies (I don't remember where I saw them) demonstrated that it was close to optimal, but not fully optimal. Likewise, it seems that for 64bits the value was discovered, rather than computing. –  Matthieu M. Oct 14 '11 at 16:28
2  
Holy omg! That is insane! –  Utkarsh Sinha Oct 14 '11 at 23:16

I like the concept of container_of used for example in lists. Basically, you do not need to specify next and last fields for each structure which will be in the list. Instead, you append the list structure header to actual linked items.

Have a look on include/linux/list.h for real-life examples.

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if(---------)  
printf("hello");  
else   
printf("hi");

Fill in the blanks so that neither hello nor hi would appear in output.
ans: fclose(stdout)

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7  
1) ; else if (0 –  leemes Aug 12 '11 at 23:15

Adding two numbers (a and b) without using any operators:

printf("%d", printf("%*s%*s",a,"\r",b,"\r") );

it prints a+b.

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fill in the blanks to print both 'correct' and 'wrong' below:

if(--------)
printf("correct");
else
printf("wrong");

The answer is !printf("correct")

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Instead of

printf("counter=%d\n",counter);

Use

#define print_dec(var)  printf("%s=%d\n",#var,var);
print_dec(counter);
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