# Int considered as bool, & operator

I've been struggling for a while with a part of my code and I finally found that the problem lies with a simple test that don't give me the result I expect.

``````if (2) //=> true
if (2 & true) //=> false
if (bool(2) & true) //=> true
``````

What I don't understand is why the second line results in false. My understanding was that every non-zero integer was considered as true in a test.

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`&` is the bit wise operator, `&&` is the logical and operator. – Alok Save Jun 22 '12 at 13:31

Because the bitwise and between `2` and `true` is false.

`&` (bitwise operator) is different than `&&` (logical operator).

`true` cast to `int` is `1`.

So `2 & true` is `2 & 1` which is false - because `0000000000000010 & 0000000000000001 == 0`. (bits may vary)

Whereas `bool(2) == 1`, and `1 & 1` is `true`.

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When you have time, would you look at my answer to the same question? The reason I ask is that my answer hesitates over a point of the C++11 standard and a compiler's (or CPU's?) behavior. – thb Jun 22 '12 at 13:45
@thb IDK, not very good with C++11 :( sry – Luchian Grigore Jun 22 '12 at 13:48
@LuchianGrigore: is it specified anywhere than `true` should be converted to `1` when an integral is needed, or would any positive integral value be okay as far as the standard is concerned (for example: `0b11111111`) ? – Matthieu M. Jun 22 '12 at 14:50
@MatthieuM. I believe any value other than `0` is `true`, but that `true` is converted to one, yes. Don't have time to look for a quote right now though. – Luchian Grigore Jun 22 '12 at 15:08
@MatthieuM. In C++03 it was 4.5, Integral promotions, paragraph 4, "An rvalue of type bool can be converted to an rvalue of type int, with false becoming zero and true becoming one." – Daniel Fischer Jun 22 '12 at 18:05
``````if (2) //=> true
``````

So far, so good.

``````if (2 & true) //=> false
``````

The condition here evaluates to `2 & 1 == 0`, because `&` is a bitwise operator and 2 and 1 are respectively 00000010 and 00000001 in binary.

``````if (bool(2) & true) //=> true
``````

Interestingly enough, on my compiler I seem to recall erratic behavior in some cases like this; and, if sect. 4.12 of the C++11 standard addresses the matter, it does so in a manner I do not understand. I seem to recall seeing my compiler let `bool(2) == 2`, which one would not expect. Whether this represents a bug in my compiler or a fault in my recollection, I do not know.

I suspect however that you want the logical operator `&&` rather than the bitwise operator `&`.

QUIZ

``````if (3 & true) //=> true
``````

Do you understand why? (Hint: the binary representation of 3 is 00000011.)

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If `bool(2) == 2`, then something is definitely wrong. Either the compiler is misbehaving, or you have an evil header containing something like `#define bool int`· Which compiler are you using? – Mike Seymour Jun 22 '12 at 13:52
@MikeSeymour: GCC 4.4 (which, I am aware, is not mostly C++11 compliant, but one doubts that the version of the standard in use is the issue here). However, following your comment, I cannot now reproduce the behavior, though I seem to remember encountering it within the past year. Sorry for wasting your time. If I encounter the behavior again in an up-to-date compiler, I should file an appropriate bug report with GCC's developers. For the present, I will edit my answer here shortly. Thanks. – thb Jun 22 '12 at 14:07

You need `&&` instead of `&`.

`&&` is the boolean `and` operator, whereas `&` is the binary 'and' so `2 & true` is the same as `0010 & 0001 = 0000 -> false` whereas `2 && true = true`.

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`&` does an AND between all the bits (call bitwise AND) , what you need is the `&&` operator (boolean AND).

2 in binary is '10' and true is 1 (01) in binary, the result `10 & 01` is therefore 0 .

bool(2) convert 2 to true , is 01 in binary, and `01 & 01` is 01.

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