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Under C++ or <stdbool.h> from C99, how is the less-than operator < defined for boolean values?

Alternatively, explain the behaviour of this code:

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

int main() {
    bool b = -1;
    if(b < true) {
        printf("b < true\n");
    if(b < false) {
        printf("b < false\n");
    if(true < false) {
        printf("true < false\n");
    if(false < true) {
        printf("false < true\n");

Under MSVC version 10, compiled as C++ code, GCC 4.6.3-ubuntu5 compiled as C code and G++ 4.6.3-1ubuntu5 compiled as C++ code, all you get is

false < true

That is, the following inequalities are all false:

(bool)-1 < true
(bool)-1 < false
true < false

And the following is true:

false < true
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7 Answers 7

up vote 7 down vote accepted

In C++ (and I suspect in C as well), bools compare exactly as if false were 0 and true were 1. And if the type is bool, no values other than true and false are possible.

When comparing bool to other numeric types, it will convert to int, again with false converting to 0 and true converting to 1.

Edit: Both C++ and stdbool.h in C99 also force boolean values to be either 0 (false) or 1 (true) - bool b = -1; sets the value of b to 1. Since 1 < 1 and 1 < 0 are both false, the inequalities in the question are correct.

Edit: (by James) Except that the above edit isn't really correct, at least for C++. A bool doesn't have a value of 0 or 1, it has a value of false or true. It's only when it is promoted to int that the conversion creates the values of 0 and 1.

And as Konrad has pointed out, there is no conparison of bool values. The "usual arithmetic conversions" occur for the comparison operators, which means integral promotion on both of the operands, which means bool converts to int (as does char or short... or an enum).

All of which is rather technical. In practice, you can remember that false < true, or you can consider false is 0 and true is 1, whichever works best for you. The only important thing to remember is that a bool can have no other values.

(Interestingly, I don't think that the bit patterns of a bool are imposed by the standard. An implementation could use the bit patterns 0x55 and 0xAA, for example, as long as all conversions to an integral type gave 0 and 1, conversion to bool always gave the appropriate value, etc. Including zero initialization of static variables.)

And one final note: bool b = -1; sets b to -1 != 0 (which is true, not 1, but of course, true will convert to 1 in any numeric context.

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Can you find where this is defined in the standard? I just looked and was unable to find it (I’m not even sure what to search for). –  Konrad Rudolph Aug 14 '12 at 12:07
@Mansuro Irrelevant, James and I were talking about C++. But even for C nothing in this document states how a conversion (bool) -1 is handled. –  Konrad Rudolph Aug 14 '12 at 12:10
§4.5 Integral promotions. "An rvalue of type bool can be converted to an rvalue of type int, with false becoming zero and true becoming one." (Note that a bool never has a value of 0 or 1; only false and true. That's why I said "exactly as if.") And §4.12 for the conversions to bool. –  James Kanze Aug 14 '12 at 12:13
Yes, but where does it define their ordering? EDIT: Duh, forget it. –  Konrad Rudolph Aug 14 '12 at 12:13
@KonradRudolph: There is no actual ordering on bool. As with many other operations, the value is promoted to int following the rules above, and then it two ints are compared. –  David Rodríguez - dribeas Aug 14 '12 at 12:14
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This makes perfect sense. The integral type => bool conversion is effectively b = i != 0. In order to do the < comparison it promotes the bool to int by the rule false=>0 and true=>1. In your first case -1 will equate to true, and both will promote to 1 so it's false. Obviously 1 is never less than 0 for the second and third cases, while 0 < 1 in the last case.

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Boolean values are ordered such that false is smaller than true. According to the standard, a bool can only hold two values: true and false, so the conversions in (bool)-1 should have yielded true (as all non-0 values when converted to bool are true). That is the behavior in clang and g++-4.7.

The actual comparison (I believe) is done on int after the bool is promoted, and it seems that the compilers you tested avoided the intermediate step of converting through bool and just promoted the actual bool value.

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operator > and < base on this:

true == (1)
false == (0)

this false: (bool)-1 < true (bool)-1 < false because of rolling arithmetic in bool b = -1;

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For C++ just false < true

For C is more difficult to answer. I see

typedef char _Bool; /* For C compilers without _Bool */ in my stdbool.h

Seems, that if compiler support _Bool , it works as in C++ and automatically converts to 0/1, but if not it should work as char and it'll be b < true, b < false if char is signed

For me (int)(bool) -1 is 1 even in C, so bool is defined as not char

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your compiler doesn't seem to be compliant to C99 or C11 if it really does this typedef. _Bool is an unsigned integer type that can hold the values 0 and 1 and such that all values different from 0 are converted to 1 as e.g in (bool)-1. (the later wouldn't work correctly with char as a substitute.) Since this is an integer type the ordering of the possible values is the same as for all integer types 0 is smaller than 1. –  Jens Gustedt Aug 14 '12 at 12:18
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Here is an explaination, I haven't checked with the standard though. From your experiments it seems that the "<" operator is not defined for boolean values. What is compared is the unsigned ints that the booleans are converted to. In theory it could be possible that the standard doesn't guarantee that all "true" booleans are converted to the same value. And -1 is converted to the largest unsigned int.

As another experiment, the following code

#include <iostream>

int main()
std::cout<< (((bool)1) == true) << "\n";
std::cout<< (((bool)2) == true) << "\n";
std::cout<< (((bool)0) == false) << "\n";
std::cout<< (((bool)1) == false) << "\n";
  return 0;

prints 1 1 1 0

So any nonzero value is "true".

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bool seems to be defined as a (signed) integer type, false being 0, zero being 1. This explains why true > false (1 > 0) is true.

Also, comparing -1 to an unsigned number makes -1 be cast to unsigned, and on your platform this causes an integer overflow, resulting UINT_MAX (or whichever type bool has been typedeffed to). This now explains why the following expressions were false:

((bool)-1) < true i. e. UINT_MAX < 1
((bool)-1) < false i. e. UINT_MAX < 0
true < false i. e. 1 < 0
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Formally, bool is defined as a signed (not unsigned) integral type, even though the only values it can take (true and false) all have non-negative values. And ((bool)-1) isn't UINT_MAX, it's 1 when considered as an int. –  James Kanze Aug 14 '12 at 12:05
bool is not unsigned int, it's defined as int gel.sourceforge.net/examples/stdbool_8h-source.php –  Mansuro Aug 14 '12 at 12:08
In C _Bool (as the underlying type behind bool) is defined as an unsigned integer type. All values different from 0 that are converted to bool result in the value 1. So (bool)-1 is always 1 and thus the < true and < false is always false. –  Jens Gustedt Aug 14 '12 at 12:13
I edited my answer. –  user529758 Aug 14 '12 at 12:14
@JamesKanze: That is the problem with questions that ask about C/C++ assuming that they are similar enough. In C99, the type of _Bool (bool is a macro that expands to _Bool) is unsigned. –  David Rodríguez - dribeas Aug 14 '12 at 12:15
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