I have a small piece of code about the sizeof operator with the ternary operator:

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

int main()
    bool a = true;
    printf("%zu\n", sizeof(bool));  // Ok
    printf("%zu\n", sizeof(a));     // Ok
    printf("%zu\n", sizeof(a ? true : false)); // Why 4?
    return 0;

Output (GCC):

4 // Why 4?

But here,

printf("%zu\n", sizeof(a ? true : false)); // Why 4?

the ternary operator returns boolean type and sizeof bool type is 1 byte in C.

Then why does sizeof(a ? true : false) give an output of four bytes?

  • 41
    sizeof(true) and sizeof(false) is also 4: ide.geeksforgeeks.org/O5jvuN
    – tkausl
    Oct 30, 2017 at 8:40
  • 7
    The more interesting question here would be why this implementation is "inconsistent" in that it obviously defines _Bool to have size 1, but not true and false. But the standard doesn't have anything to say about that as far as I can tell.
    – user2371524
    Oct 30, 2017 at 9:02
  • 12
    @FelixPalmen same reason why given char a; sizeof(a) == 1 and sizeof('a') == sizeof(int) (in C). It's not about the implementation, it's about the language. Oct 30, 2017 at 9:12
  • 10
    Have you tried to print sizeof(true)? perhaps it will make thins a bit more clear (in particular, it will become obvious that the ternary operator is a red herring). Oct 30, 2017 at 9:17
  • 4
    @FelixPalmen true is #defined to be 1 by stdbool.h so yes, this is the literal definition. Oct 30, 2017 at 9:29

7 Answers 7


It's because you have #include <stdbool.h>. That header defines macros true and false to be 1 and 0, so your statement looks like this:

printf("%zu\n", sizeof(a ? 1 : 0)); // Why 4?

sizeof(int) is 4 on your platform.

  • 21
    "It's because you have #include <stdbool.h>" No, it is not. sizeof(a ? (uint8_t)1 : (uint8_t)0); would also give a result of 4. The integer promotion of the ?: operands is the important part here, not the size of true and false.
    – Lundin
    Oct 31, 2017 at 9:14
  • 9
    @Lundin: Both are important. As-written, the type is already int with no promotion. The reason you can't "fix" it is the default promotions. Oct 31, 2017 at 16:28
  • 5
    @PeterSchneider This is not C++. This is C. In C++, true and false are not macros; they are keywords. They aren't defined to be 1 and 0, but to be the true and false values of the bool type.
    – Justin
    Oct 31, 2017 at 18:49
  • 5
    @PeterSchneider No, you learned something about C today. Don't confuse the two languages. In C++, sizeof(true) is 1. demo.
    – Rakete1111
    Oct 31, 2017 at 18:52
  • 1
    True, mixed it up. Hadn't read carefully and was missleaded by cppreference-link. My fault, thank you. But I have this feeling about c++ anyway. Oct 31, 2017 at 18:56

Here, ternary operator return boolean type,

OK, there's more to that!

In C, the result of this ternary operation is of type int. [notes below (1,2)]

Hence the result is the same as the expression sizeof(int), on your platform.

Note 1: Quoting C11, chapter §7.18, Boolean type and values <stdbool.h>

[....] The remaining three macros are suitable for use in #if preprocessing directives. They are


which expands to the integer constant 1,


which expands to the integer constant 0, [....]

Note 2: For conditional operator, chapter §6.5.15, (emphasis mine)

The first operand is evaluated; there is a sequence point between its evaluation and the evaluation of the second or third operand (whichever is evaluated). The second operand is evaluated only if the first compares unequal to 0; the third operand is evaluated only if the first compares equal to 0; the result is the value of the second or third operand (whichever is evaluated), [...]


If both the second and third operands have arithmetic type, the result type that would be determined by the usual arithmetic conversions, were they applied to those two operands, is the type of the result. [....]

hence, the result will be of type integer and because of the value range, the constants are precisely of type int.

That said, a generic advice, int main() should better be int main (void) to be truly standard-conforming.

  • @user694733 umm..why not? <stdbool.h> defines the MACROS to be of type int..is that wrong? Oct 30, 2017 at 8:44
  • @BasileStarynkevitch OK, I see that now, this seems indeed wrong, updated now. Oct 30, 2017 at 8:48

The ternary operator is a red herring.

    printf("%zu\n", sizeof(true));

prints 4 (or whatever sizeof(int) is on your platform).

The following assumes that bool is a synonym for char or a similar type of size 1, and int is larger than char.

The reason why sizeof(true) != sizeof(bool) and sizeof(true) == sizeof(int) is simply because true is not an expression of type bool. It's an expression of type int. It is #defined as 1 in stdbool.h.

There are no rvalues of type bool in C at all. Every such rvalue is immediately promoted to int, even when used as an argument to sizeof. Edit: this paragraph is not true, arguments to sizeof don't get promoted to int. This doesn't affect any of the conclusions though.

  • Nice answer. After I read the currently most upvoted answer, I was thinking all statements should evaluate to 4. This cleared things up. +1
    – Pedro A
    Oct 30, 2017 at 11:58
  • 5
    Isn't (bool)1 an rvalue of type bool?
    – Ben Voigt
    Oct 30, 2017 at 19:53
  • printf("%u\n", sizeof((char) 1)); prints 1 on my platform whereas printf("%u\n", sizeof(1)); prints 4. Doesn't this mean that your statement "Every such rvalue is immediately promoted to int, even when used as an argument to sizeof" is false?
    – JonatanE
    Oct 31, 2017 at 7:48
  • This doesn't really answer the question. The size and type of true etc doesn't really matter in the case of ?: since it gets integer promoted to int anyhow. That is, the answer should address why ?: is a red herring.
    – Lundin
    Oct 31, 2017 at 9:12
  • 6
    I think the answer addresses the issue in the best way possible. You are welcome to downvote or improve it. Oct 31, 2017 at 9:46

Regarding the boolean type in C

A boolean type was introduced fairly late in the C language, in the year 1999. Before then, C did not have a boolean type but instead used int for all boolean expressions. Therefore all logical operators such as > == ! etc return an int of value 1 or 0.

It was custom for applications to use home-made types such as typedef enum { FALSE, TRUE } BOOL;, which also boils down to int-sized types.

C++ had a much better, and explicit boolean type, bool, which was no larger than 1 byte. While the boolean types or expressions in C would end up as 4 bytes in the worst case. Some manner of compatibility with C++ was introduced in C with the C99 standard. C then got a boolean type _Bool and also the header stdbool.h.

stdbool.h provides some compatibility with C++. This header defines the macro bool (same spelling as C++ keyword) that expands to _Bool, a type which is a small integer type, likely 1 byte large. Similarly, the header provides two macros true and false, same spelling as C++ keywords, but with backward compatibility to older C programs. Therefore true and false expand to 1 and 0 in C and their type is int. These macros are not actually of the boolean type like the corresponding C++ keywords would be.

Similarly, for backward compatibility purposes, logical operators in C still return an int to this day, even though C nowadays got a boolean type. While in C++, logical operators return a bool. Thus an expression such as sizeof(a == b) will give the size of an int in C, but the size of a bool in C++.

Regarding the conditional operator ?:

The conditional operator ?: is a weird operator with a couple of quirks. It is a common mistake to believe that it is 100% equivalent to if() { } else {}. Not quite.

There is a sequence point between the evaluation of the 1st and the 2nd or 3rd operand. The ?: operator is guaranteed to only evaluate either the 2nd or the 3rd operand, so it can't execute any side-effects of the operand that is not evaluated. Code like true? func1() : func2() will not execute func2(). So far, so good.

However, there is a special rule stating that the 2nd and 3rd operand must get implicitly type promoted and balanced against each other with the usual arithmetic conversions. (Implicit type promotion rules in C explained here). This means that the 2nd or 3rd operand will always be at least as large as an int.

So it doesn't matter that true and false happen to be of type int in C because the expression would always give at least the size of an int no matter.

Even if you would rewrite the expression to sizeof(a ? (bool)true : (bool)false) it would still return the size of an int !

This is because of implicit type promotion through the usual arithmetic conversions.

  • 1
    C++ does not actually guarantee sizeof(bool)==1.
    – aschepler
    Nov 1, 2017 at 0:24
  • 1
    @aschepler No but the real world outside the C++ standard does however guarantee it. Name one compiler where it isn't 1.
    – Lundin
    Nov 1, 2017 at 7:30
  • Hi. I think this answer would be better without its first part. The second part answers the question. The rest, while interesting, is just noise.
    – YSC
    Sep 28, 2018 at 8:28
  • @YSC This was originally tagged C and C++ both, so a comparison between their different bool types and the history behind them was necessary. I doubt I would have written the first part if not for the C++ tag. However, one has to understand why sizeof(bool) is 1 but sizeof(false) is 4 in C.
    – Lundin
    Sep 28, 2018 at 9:49

Quick answer:

  • sizeof(a ? true : false) evaluates to 4 because true and false are defined in <stdbool.h> as 1 and 0 respectively, so the expression expands to sizeof(a ? 1 : 0) which is an integer expression with type int, that occupies 4 bytes on your platform. For the same reason, sizeof(true) would also evaluate to 4 on your system.

Note however that:

  • sizeof(a ? a : a) also evaluates to 4 because the ternary operator performs the integer promotions on its second and third operands if these are integer expressions. The same of course happens for sizeof(a ? true : false) and sizeof(a ? (bool)true : (bool)false), but casting the whole expression as bool behaves as expected: sizeof((bool)(a ? true : false)) -> 1.

  • also note that comparison operators evaluate to boolean values 1 or 0, but have int type: sizeof(a == a) -> 4.

The only operators that keep the boolean nature of a would be:

  • the comma operator: both sizeof(a, a) and sizeof(true, a) evaluate to 1 at compile time.

  • the assignment operators: both sizeof(a = a) and sizeof(a = true) have a value of 1.

  • the increment operators: sizeof(a++) -> 1

Finally, all of the above applies to C only: C++ has different semantics regarding the bool type, boolean values true and false, comparison operators and the ternary operator: all of these sizeof() expressions evaluate to 1 in C++.

  • 2
    Good answer that actually manages to point out that it doesn't really matter what type true and false are, because the ?: operands would get integer promoted to int anyhow. Thus sizeof(a ? (uint8_t)true : (uint8_t)false) will also yield 4 as result.
    – Lundin
    Oct 31, 2017 at 9:10
  • This answer covers the main important point, value getting promoted to int
    – Chinni
    Oct 31, 2017 at 19:52

Here is a snippet from which is what included in the source

#ifndef __cplusplus

#define bool    _Bool
#define true    1
#define false   0

#else /* __cplusplus */

There macros true and false are declared as 1 and 0 respectively.

however in this case the type is the type of the literal constants. Both 0 and 1 are integer constants that fit in an int, so their type is int.

and the sizeof(int) in your case is 4.


There is no boolean datatype in C, instead logical expressions evaluate to integer values 1 when true otherwise 0.

Conditional expressions like if, for, while, or c ? a : b expect an integer, if the number is non-zero it's considered true except for some special cases, here's a recursive sum function in which the ternary-operator will evaluate true until n reach 0.

int sum (int n) { return n ? n+sum(n-1) : n ;

It can also be used to NULL check a pointer, here's a recursive function that print the content of a Singly-Linked-List.

void print(sll * n){ printf("%d -> ",n->val); if(n->next)print(n->next); }

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