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C doesn't have any built in boolean types. What's the best way to use them in C?

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17  
C does have boolean type. At least there is one in the most recent standards. –  AraK Dec 17 '09 at 12:50
1  

11 Answers 11

up vote 298 down vote accepted

Option 1

typedef int bool;
#define true 1
#define false 0

Option 2

typedef int bool;
enum { false, true };

Option 3

typedef enum { false, true } bool;

Option 4 (C99)

#include <stdbool.h>

Explanation

  • Options 1, 2 and 3 will have in practice the same identical behavior. #2 and #3 don't use #defines though, which in my opinion is better.
  • Option 4 will work only if you use C99 and it's the "standard way" to do it. Choose this if possible.

If you are undecided, go with #3!

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2  
options 1 and 2 don't have the same behaviour, at least with respect to a debugger, which is aware of enum literals but not of #define macros. –  mouviciel Dec 17 '09 at 14:06
7  
-1 Try this test out: int result = !false; printf("%d\n", result);. The !false is not guaranteed to equal +1 on all systems. However, when true is defined as !false, then the boolean relations will be valid. It also frees up any assumptions about the actual numeric value of true. –  Thomas Matthews Dec 17 '09 at 18:45
2  
Here's an excerpt from the R Project for Statistical Computing: typedef enum { FALSE = 0, TRUE /*, MAYBE */ } Rboolean; –  Joey Adams Dec 18 '09 at 4:36
12  
!0 will in fact always be 1, but the point is that zero is the only false value while all non-zero values are true. This can make it somewhat dangerous to compare directly against a true constant. But, you should never compare against boolean constants anyway. –  Dale Hagglund Dec 18 '09 at 4:46
3  
@9000 "Unsigned char and int are the same thing" nope, not even close. I'm not sure where you got that. –  Jonathon Reinhart May 20 at 4:16

A few thoughts on booleans in C:

I'm old enough that I just use plain ints as my boolean type without any typedefs or special defines or enums for true/false values. If you follow my suggestion below on never comparing against boolean constants, then you only need to use 0/1 to initialize the flags anyway. However, such an approach may be deemed too reactionary in these modern times. In that case, one should definitely use <stdbool.h> since it at least has the benefit of being standardized.

Whatever the boolean constants are called, use them only for initialization. Never ever write something like

if (ready == TRUE) ...
while (empty == FALSE) ...

These can always be replaced by the clearer

if (ready) ...
while (!empty) ...

Note that these can actually reasonably and understandably be read out loud.

Give your boolean variables positive names, ie full instead of notfull. The latter leads to code that is difficult to read easily. Compare

if (full) ...
if (!full) ...

with

if (!notfull) ...
if (notfull) ...

Both of the former pair read naturally, while !notfull is awkward to read even as it is, and becomes much worse in more complex boolean expressions.

Boolean arguments should generally be avoided. Consider a function defined like this

void foo(bool option) { ... }

Within in the body of the function, it is very clear what the argument means since it has a convenient, and hopefully meaningful, name. But, the call sites look like

foo(TRUE);
foo(FALSE):

Here, it's essentially impossible to tell what the parameter mean without always looking at the function definition or declaration, and it gets much worse as soon if you add even more boolean parameters.. I suggest either

typedef enum { OPT_ON, OPT_OFF } foo_option;
void foo(foo_option option);

or

#define OPT_ON true
#define OPT_OFF false
void foo(bool option) { ... }

In either casee, the call site now looks like

foo(OPT_ON);
foo(OPT_OFF);

which the reader has at least a chance of understanding without dredging up the definition of foo.

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+1 It could also be applied to many other languages. Very clear and straight. –  lepe Apr 1 at 3:21
    
Thank you, and you're quite right: I use these guidelines in whatever programming language I'm using at the time. –  Dale Hagglund Apr 1 at 13:41
    
And how do you compare two variables for equality? Never using boolean constants works great, but it doesn't solve the problem when comparing against a non-constant. –  baruch Apr 28 at 8:15
    
Forgive me, but I don't understand the question. Are you asking how I compare two boolean variables for equality? If so, doesn't a == b work? –  Dale Hagglund Apr 28 at 9:44

A boolean in c is an integer: zero for false and non-zero for true.

See also http://en.wikipedia.org/wiki/Boolean%5Fdata%5Ftype#C

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3  
+1 for stating that true is non-zero, which unlike other answers, may not be 1. Could be -1, 5, 7, etc. –  Thomas Matthews Dec 17 '09 at 18:33
typedef enum {
    false = 0,
    true
} t_bool;
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+1 Using an enum for this is much better than #defines. –  ConcernedOfTunbridgeWells Dec 17 '09 at 12:57
    
+1 Use enum type and only check true/false against vars of this type. –  Marco Dec 17 '09 at 13:01
1  
-1 This does not follow the boolean logic for all integral data types, especially signed numeric types. –  Thomas Matthews Dec 17 '09 at 18:41
4  
@Thomas Matthews: What is your point? Can you elaborate? –  mouviciel Dec 17 '09 at 21:24
    
2 through MAX_INT should evaluate to true also –  technosaurus May 21 at 23:07

Anything nonzero is evaluated to true in boolean operations, so you could just

#define TRUE 1
#define FALSE 0

and use the constants.

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6  
but use them with care: since a true result may be any non-zero value, the tests if(t==TRUE){...} and if(t), which are equivalent in other languages, are not equivalent in C. –  Fortega Dec 17 '09 at 12:51
    
You're right, but that's also true in C++ which does have a bool type, right? During debugging i've seen bool variables with values of 5837834939... –  ggambett Dec 17 '09 at 12:54
    
In C++, the if(t == true) test equals the if(t) test, because C++ does some conversion (everything which is not 0 or a null pointer value is converted to true) –  Fortega Dec 17 '09 at 13:03
    
Try an experiment: signed int result = !FALSE; printf("%d\n", result); I believe you'll find out that !0 is not 1 in all cases. –  Thomas Matthews Dec 17 '09 at 18:39
2  
All you should assume about a boolean true value is that it is non-zero. So code like if( b ) is safe while if( b == TRUE) is not; the latter is bad practice (and pointless). –  Clifford Dec 17 '09 at 21:01

If you are using a C99 compiler it has built-in support for bool types:

#include <stdbool.h>
int main()
{
  bool b = false;
  b = true;
}

http://en.wikipedia.org/wiki/Boolean_data_type#C99

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C has a boolean type: bool (at least for the last 10(!) years)

Include stdbool.h and true/false will work as expected.

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5  
10 years in the standard, but not 10 years in compilers! MSVC++'s C compilation does not support C99 at all other than allowing // comments, and is not ever likely to do so. Also _Bool is defined in C99 as a built-in type, while bool is a typedef in the <stdbool.h> header. –  Clifford Dec 17 '09 at 20:58
    
@Clifford 4 years on since your comment...nothing has changed. MSVC is a C++ compiler and I believe MS have said that they are not really keen on supporting all new C features (C99 & C11). But I can't take that MSVC doesn't support new C features as a reason (especially when you say it against a 10 years on answer). 10 years is really a long time in the programming world. Any decent compiler should have support for it in much less than 10 years if the vendor is intended to support it. –  Blue Moon Sep 16 '13 at 20:57
    
@KingsIndian: I am not sure why you directed your comment to me or even felt the need to comment at all. I was only stating the situation as it stood at the time of writing. I was not supporting that situation, merely pointing out that the "answer" may not apply in all circumstances. –  Clifford Sep 16 '13 at 21:36

Here is the version that I used:

typedef enum { false = 0, true = !false } bool;

Because false only has one value, but a logical true could have many values, but technique sets true to be what the compiler will use for the opposite of false.

This takes care of the problem of someone coding something that would come down to this:

if (true == !false)

I think we would all agree that that is not a good practice, but for the one time cost of doing "true = !false" we eliminate that problem.

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You can use a char, or another small number container for it.

Pseduo

#define TRUE  1
#define FALSE 0

char bValue = TRUE;
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2  
The problem is that char may be signed or unsigned. If char is signed, !FALSE, evaluates to all 1 bits, which is may be interpreted as -1, and is not equal to your definition of TRUE. –  Thomas Matthews Dec 17 '09 at 18:37
    
Also in C it's usually an int, and it can cause loss of precision warnings by other code that uses int.. –  Andreas Bonini Dec 19 '09 at 19:26
    
@ThomasMatthews: Over four years late, but no, !FALSE does not evaluate to all 1 bits. §3.3.3.3: "The result of the logical negation operator ! is 0 if the value of its operand compares unequal to 0, 1 if the value of its operand compares equal to 0." Perhaps you had ~FALSE in mind? –  Fraxtil Mar 14 at 22:00

@Thomas Matthews: Conditional expressions are considered to be true if they are non-zero, but the C standard requires that logical operators themselves return either 0 or 1.

@Tom: #define TRUE !FALSE is bad and is completely pointless. If the header file makes its way into compiled C++ code, then it can lead to problems:

void foo(bool flag);

...

int flag = TRUE;
foo(flag);

Some compilers will generate a warning about the int => bool conversion. Sometimes people avoid this by doing:

foo(flag == TRUE);

to force the expression to be a C++ bool. But if you #define TRUE !FALSE, you end up with:

foo(flag == !0);

which ends up doing an int-to-bool comparison that can trigger the warning anyway.

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well what about this:

#define TRUE 1
#define FALSE 0
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5  
Id go with something like #define TRUE !FALSE –  Tom Dec 17 '09 at 13:30
    
@Tom: What's the value of v in this code: char v = !0? That's the result of your suggestion. –  Georg Schölly Dec 17 '09 at 13:39
1  
The problem is that !FALSE may not be TRUE. Try and see, especially with unsigned and signed variables. –  Thomas Matthews Dec 17 '09 at 18:34
    
I tried but didn't see...? O.o –  Andreas Bonini Dec 18 '09 at 2:03

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