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This is the only place I've ever seen and, or and not listed as actual operators in C++. When I wrote up a test program in NetBeans, I got the red underlining as if there was a syntax error and figured the website was wrong, but it is NetBeans which is wrong because it compiled and ran as expected.

I can see ! being favored over not but the readability of and && or seems greater than their grammatical brothers. Why do these versions of the logical operators exist and why does seemingly no one use it? Is this truly valid C++ or some sort of compatibility with C that was included with the language?

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\me Rewrites all his code – Limited Atonement Mar 10 at 15:42
up vote 64 down vote accepted

They originated in C in the header <iso646.h>. At the time there were keyboards that couldn't type the required symbols for && (for example), so the header contained #define's that would assist them in doing so, by (in our example) defining and to be &&. Of course, as time went by this became less used.

In C++, they became what are known as alternate tokens. You do not need to include anything to use these tokens in a compliant compiler (as such, the C++-ified version of the C header, <ciso646>, is blank). Alternate tokens are just like regular tokens, except for spelling. So during parsing and is exactly the same as &&, it's just a different way of spelling the same thing.

As for their use: because they are rarely used, using them is often more surprising and confusing than it is helpful. I'm sure if it were normal, they would be much easier to read, but people are so used to && and || anything else just gets distracting.

EDIT: I have seen a very slight increase in their usage since I posted this, however. I still avoid them.

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+1 Very nice answer, with explaining the rationale. :-) (Me, I was just going for Fastest Gun in the West. :-P) – Chris Jester-Young Mar 4 '10 at 2:13
So is the interpretation of these alternate tokens just a compiler feature or is it in the C++ specification? – defectivehalt Mar 4 '10 at 2:44
@Kavon: It's specified in section 2.5 of the standard; it's a language feature. – GManNickG Mar 4 '10 at 2:53
I personally think they are much better... but then I am Python biased. I don't know why some people thing that if it's not garbled it's not code... – Matthieu M. Mar 4 '10 at 8:28
So these are not valid in C without including that header file? I am surprised that these are not used by everyone; they make Python so much more readable. – endolith Mar 5 '13 at 15:48

They do exist for usability (character support in keyboard/display flavors) and general readability, but there's another reason that's nowadays more pronounced. Almost none of the answers here, here, or even the main answer here spell out the core reason many of us prefer the word versions over the symbol versions (and a main reason other languages use them): bugs. The differences between the word versions are very visible. The differences between the symbol versions are markedly less so, to the point of tempting bugs to a comparatively much greater extent: "x|y" is very much not "x||y", yet when embedded in a larger expression many of us miss the difference. It's similar to the common accidental mixing of the assignment vs equality operator. For this reason I've weaned myself off of the symbol versions (it wasn't easy) in favor of the word versions. I'd rather have someone do a double-take on them due to our love of old things than tempt bugs.

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Unfortunately, in Visual Studio (as of VS2013), you must set a specific compiler option (/Za) in order to support the alternative keywords (see That presumably also has other impacts. So, in Visual Studio, it's not necessarily safe to take this advice. – Dan Nissenbaum Jun 11 '14 at 19:10
FWIW /- as I put spaces around operators, x | y is sufficiently visually distinct (in monospaced fonts) from x || y, but I do find the ! in e.g. if (!f(xyz) && ... easier to miss than if (not f(xyz) && .... – Tony D Aug 20 '15 at 6:00

In C++, they are real keywords. In C, they're macros defined in <iso646.h>. See

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Technically they are alternate tokens, not keywords. :) – GManNickG Mar 4 '10 at 2:15
@GMan: +1 Nice call, though, the Dinkumware page calls them keywords, so, I suppose they didn't care too much about the distinction. – Chris Jester-Young Mar 4 '10 at 3:31
This link is invalid now. – Yokhen Nov 5 '12 at 22:37
Updated link:… – kevinarpe Jul 18 '14 at 5:25
So, does MSVC support them out of the box in C++ but not in C? – rwst Oct 29 '15 at 7:11

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