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Emulating booleans in C can be done this way:

int success;
success = (errors == 0 && count > 0);

With stdbool.h included following could be done:

bool success;
success = (errors == 0 && count > 0) ? true : false;

From what I understand logical and comparison operators should return either 1 or 0. Also, stdbool.h constants should be defined so that true == 1 and false == 0.

Thus following should work:

bool success;
success = (errors == 0 && count > 0);

And it does work on compilers that I have tested it with. But is it safe to assume it is portable code? (Assume that stdbool.h exists)

Is the situation different on C++ compilers as bool is internal type?

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Actually, any non-zero value is considered true, while zero is false. –  Joachim Pileborg Feb 1 '13 at 8:15
C since C99 has a Boolean type. It is named _Bool and the macro bool in stdbool.h is just a textual replacement for that. –  Jens Gustedt Feb 1 '13 at 8:17
@JoachimPileborg That's true, but any time when C generates a boolean value it's either 0 or 1. const int a = (b > c); will never make a equal 42. –  unwind Feb 1 '13 at 8:20
@unwind And in C++, an expression like b > c has type bool, and is either true or false (not 1 or 0). Only if the bool is converted to another type does it become 1 or 0. –  James Kanze Feb 1 '13 at 8:54
The proper way to code C is to pretend that expressions like (errors == 0) is essentially boolean. To treat the result of any of the > < >= <= == != ! && || operators as bool in C is perfectly safe, perfectly portable and considered good programming style. –  Lundin Feb 1 '13 at 12:44

3 Answers 3

up vote 13 down vote accepted

It is safe to assume. In C99, upon conversion to the _Bool type, all non-zero values are converted to 1. This is described in section in the C99 standard. The equality and relational operators (e.g. ==, >=, etc) are guaranteed to result in either 1 or 0 as well. This is described in section 6.5.8 and 6.5.9.

For C++, the bool type is a real Boolean type where values are converted to true or false rather than 1 or 0, but it is still safe to assign the result of an == operation etc. to a bool and expect it to work, because the relational and comparison operators result in a bool anyway. When true is converted to an integer type it is converted to 1.

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In C++ the situation is completely different anyway, since the comparison and logical operators return bool directly, so assigning it to bool is safe by nature and there aren't any integral conversions involved at all. –  Christian Rau Feb 1 '13 at 13:07
@ChristianRau: That's right, I had a sneaking suspicion that those operators resulted in bool but didn't want to say it without knowing it (I didn't have the C++ spec in front of me). I edited my answer. –  dreamlax Feb 1 '13 at 13:08
Ok, I looked it up, section 5.9 (and following) state that the return value is bool. –  Christian Rau Feb 1 '13 at 13:11

The expression (errors == 0 && count > 0) has type bool, and can be used anywhere a bool is required, including assigning it to a variable of type bool, or using it in a condition. (When converted to another integral type, false converts to 0, and true to 1, but there's no question of that in your code.)

Note that in C, with <stdbool.h>, bool is supposed to behave exactly as it does in C++ (although for various historical reasons, the actual specification is different). This means that something like:

bool success = (errors == 0 && count > 0) ? true : false;

is not really something that you'ld want to write. The expression errors == 0 && count > 0 has a type which is compatible with bool, and can be used as an expression of type bool. (In C++, of course, the type isn't just compatible with bool, it is bool.)

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The difference is that in C++, (errors == 0) evaluates to a type bool with size 1 bytes, but in C it evaluates to the type int and has size 2 or 4 bytes. And because of integer promotion rules in C, it doesn't matter if both operands are 1 byte variables, the result would still be an int. As far as I know, C++ overrides the integer promotion of bool variables, as long as they are used in a boolean expression == && etc, rather than in an arithmetic one, where they would get promoted to int just like in C. –  Lundin Feb 1 '13 at 12:39
@Lundin It's true that sizeof(errors == 0) will be sizeof(bool) in C++ and sizeof(int) in C, but is there any realistic context where that can make a difference? Also: integral promotion is irrelevant here; in both languages, the resulting type is the same, regardless of the types being compared (which is where integral promotion comes in). And bool is not subject to integral promotion in C++; it is in C. But you're misusing bool if you use it in a context where this would be detectable. –  James Kanze Feb 1 '13 at 14:21
@Lundin And the sizes of bool and int are implementation defined; an implementation could even make bool larger than int. (Of course, anything larger than int for bool would be very dubious in terms of QoI.) And int isn't only 2 or 4. I'm aware of an implementation where it was 6, for example. –  James Kanze Feb 1 '13 at 14:23
As for realistic cases, integer promotions typically only cause problems when you intentionally or accidentally happen to mix signed integers with bitwise operators, or with hex literals. I suppose that if you mix bool with any of those, you might end up with some pitfalls. But then, you have probably written some obscure nonsense code in the first place. –  Lundin Feb 1 '13 at 14:55

Here is the juicy part of the stdbool.h on my system:

#define bool    _Bool
#if __STDC_VERSION__ < 199901L && __GNUC__ < 3
typedef int     _Bool;

#define false   0
#define true    1

C99 has the type _Bool built in, and it converts all non-zero values to 1 (as has been said). However, a quick look at my stdbool.h shows that even in the absence of C99, it is safe to assume this stuff will work with the one caveat that a value not equal to zero or one assigned to a _Bool will not be converted to 1 (since _Bool is a simple int typedef rather than a built-in type with special properties) and therefore will not == true.

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Bad system! It is wonderfully stupid to have a signed type as bool. On that system, _Bool b = 1; ... if(~b > false) and other such expressions would evaluate to 0, since the bitwise operator happened to set the sign bit. Lets hope this stdbool.h was from "Bob's Garage compiler" and not one of the major commercial ones. –  Lundin Feb 1 '13 at 12:36
Safest approach seems to be to avoid using comparison or bitwise operators with bool types at all. I cannot even think one situation where those would be useful anyway. –  user694733 Feb 1 '13 at 13:20
@Lundin No, actually, this version of stdbool.h came with my fairly new Macbook that's running the latest associated software. My Linux machine has a different version that seems to have come with gcc, and it doesn't support the pre-C99 case at all. –  mdunsmuir Feb 1 '13 at 18:35
@Lundin Since the ~ causes type promotion to int for the _Bool type the expression would behave properly albeit not as expected. As ~b equals -2 then statement becomes if( -2 > 0 ) and should always evaluate to false. –  Kenneth Feb 18 at 11:24
@Kenneth The type was already int, so there will be no integer promotion. This can't be considered as anything else but a major compiler bug: they should have used unsigned int. Nobody will ever expect a boolean to hold a negative value. This typedef must have caused thousands of end application bugs over the years... –  Lundin Feb 19 at 7:37

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