I'm using an SDK for an embedded project. In this source code I found some code which at least I found peculiar. In many places in the SDK there is source code in this format:

#define ATCI_IS_LOWER( alpha_char )  ( ( (alpha_char >= ATCI_char_a) && (alpha_char <= ATCI_char_z) ) ? 1 : 0 )

#define ATCI_IS_UPPER( alpha_char )  ( ( (alpha_char >= ATCI_CHAR_A) && (alpha_char <= ATCI_CHAR_Z) ) ? 1 : 0 )

Does the use of the ternary operator here make any difference?


#define FOO (1 > 0)

the same as

#define BAR ( (1 > 0) ? 1 : 0)


I tried evaluating it by using

printf("%d", FOO == BAR);

and get the result 1, so it seems that they are equal. Is there a reason to write the code like they did?

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    No, there is no reason. You are right. – Art Mar 31 '17 at 11:08
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    Partially off-topic: When does the madness of using the preprocessor stop? There is potential multiple evaluation of functions involved here. Just unnecessary. – stefan Mar 31 '17 at 13:29
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    Sometimes it's nice to be explicit, too. The ternary operator here makes it clear at a glance that the purpose of the macro is to return a boolean. – pipe Mar 31 '17 at 16:00
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    At the very least, the macros should use (alpha_char) instead of alpha_char, just to make sure it doesn't break if someone tries something crazy like ATCI_IS_LOWER(true || -1). – Justin Time - Reinstate Monica Apr 1 '17 at 21:27
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    Looks like the kind of C I wrote long ago. I'd come to C from Pascal, which had a dedicated boolean type, so I wasted untold time changing horrors like if (n) to if (0 != n), probably adding a dubious cast "to make sure". I'm sure I bullet-proofed inequalities like if (a < b) ..., too. Sure it looked like Pascal's if a < b then ..., but I knew that C's < wasn't a boolean but an int, and an int could be almost anything! Fear leads to gold-plating, gold-plating leads to paranoia, paranoia leads to... code like that. – Kevin J. Chase Apr 1 '17 at 22:06

You are correct, in C it is tautologous. Both your particular ternary conditional and (1 > 0) are of type int.

But it would matter in C++ though, in some curious corner cases (e.g. as parameters to overloaded functions), since your ternary conditional expression is of type int, whereas (1 > 0) is of type bool.

My guess is that the author has put some thought into this, with an eye to preserving C++ compatibility.

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    I thought bool <-> int conversions are implicit in C++ by §4.7/4 from the standard (integral conversion), so how would it matter? – Motun Mar 31 '17 at 11:22
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    Consider two overloads of a function foo, one taking a const bool& the other taking a const int&. One of them pays you, the other reformats your hard disk. You might want to make sure you're calling the correct overload in that case. – Bathsheba Mar 31 '17 at 11:23
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    wouldn't it be more obvious to handle this case by casting the result to int rather than by using the ternary? – martinkunev Mar 31 '17 at 13:39
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    @Bathsheba While a legitimate corner case, any programmer who uses integral overloads to implement such inconsistent behavior is fully evil. – JAB Mar 31 '17 at 13:53
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    @JAB: You don't have to be evil, you just have to make the (common) mistake of writing a piece of code that accidentally does two different things (or worse, invoke undefined behavior) depending on integral type, and have the misfortune of doing so in a place that can trigger radically different code paths. – user1084944 Apr 1 '17 at 5:39

There are linting tools that are of the opinion that the result of a comparison is boolean, and can't be used directly in arithmetic.

Not to name names or point any fingers, but PC-lint is such a linting tool.

I'm not saying they're right, but it's a possible explanation to why the code was written like that.

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    Not to name names or point any fingers, but you sort of did both, lol. – StackOverflowed Mar 31 '17 at 14:41

You'll sometimes see this in very old code, from before there was a C standard to spell out that (x > y) evaluates to numeric 1 or 0; some CPUs would rather make that evaluate to −1 or 0 instead, and some very old compilers may have just followed along, so some programmers felt they needed the extra defensiveness.

You'll sometimes also see this because similar expressions don't necessarily evaluate to numeric 1 or 0. For instance, in

#define GRENFELZ_P(flags) (((flags) & F_DO_GRENFELZ) ? 1 : 0)

the inner &-expression evaluates to either 0 or the numeric value of F_DO_GRENFELZ, which is probably not 1, so the ? 1 : 0 serves to canonicalize it. I personally think it's clearer to write that as

#define GRENFELZ_P(flags) (((flags) & F_DO_GRENFELZ) != 0)

but reasonable people can disagree. If you had a whole bunch of these in a row, testing different kinds of expressions, someone might've decided that it was more maintainable to put ? 1 : 0 on the end of all of them than to worry about which ones actually needed it.

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  • On the whole I prefer to use !!( expr ) to canonicalise a boolean, but I will admit that it is confusing if you are not familiar with it. – PJTraill Apr 5 '17 at 17:41
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    @PJTraill Every time you put spaces on the inside of your parentheses, God kills a kitten. Please. Think of the kittens. – zwol Apr 6 '17 at 16:19
  • That is the best reason I have heard not to put spaces inside brackets in a C programme. – PJTraill Apr 6 '17 at 21:57

There's a bug in the SDK code, and the ternary was probably a kludge to fix it.

Being a macro the arguments (alpha_char) can be any expression and should be parenthesized because expressions such as 'A' && 'c' will fail the test.

#define IS_LOWER( x ) ( ( (x >= 'a') && (x <= 'z') ) ?  1 : 0 )
std::cout << IS_LOWER('A' && 'c');
std::cout << IS_LOWER('c' && 'A');

This is why one should always parenthesize macro arguments in the expansion.

So in your example (but with parameters), these are both bugged.

#define FOO(x) (x > 0)
#define BAR(x) ((x > 0) ? 1 : 0)

They would most correctly be replaced by

#define BIM(x) ((x) > 0)

@CiaPan Makes a great point in following comment which is that using a parameter more than once leads to undefinable results. For instance

#define IS_LOWER( x ) (((x) >= 'a') && ((x) <= 'z'))
char ch = 'y';
std::cout << IS_LOWER(ch++);
**BUT ch is now '{'**
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    Another bug is that the parameter is used twice, so an argument with side effects will lead to unpredictable results: IS_LOWER(++ var) may increment var once or twice, additionally it may not notice and recognize lower-case 'z' if var was 'y' before the macro call. That's why such macros should be avoided, or just forward the argument to a function. – CiaPan Mar 31 '17 at 13:29

In C it doesn't matter. Boolean expressions in C have type int and a value that's either 0 or 1, so

ConditionalExpr ? 1 : 0

has no effect.

In C++, it's effectively a cast to int, because conditional expressions in C++ have type bool.

#include <stdio.h>
#include <stdbool.h>

#ifndef __cplusplus

#define print_type(X) _Generic(X, int: puts("int"), bool: puts("bool") );

template<class T>
int print_type(T const& x);
template<> int print_type<>(int const& x) { return puts("int"); }
template<> int print_type<>(bool const& x) { return puts("bool"); }


int main()
    print_type(1 > 0);
    print_type(1 > 0 ? 1 : 0);

/*c++ output:

  cc output:


It's also possible no effect was intended, and the author simply thought it made the code clearer.

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  • BTW, I think C should follow suite and make boolean expressions _Bool, now that C has _Bool and _Generic. It shouldn't break much code given that all smaller types autopromote to int in most contexts anyway. – PSkocik Mar 31 '17 at 11:44

One simple explanation is that some people either don't understand that a condition would return the same value in C, or they think that it is cleaner to write ((a>b)?1:0).

That explains why some also use similar constructs in languages with proper booleans, which in C-syntax would be (a>b)?true:false).

This also explains why you shouldn't needlessly change this macro.

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Maybe, being an embedded software, would give some clues. Maybe there are many macros written using this style, to easy hint that ACTI lines use direct logic rather than Inverted logic.

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