If the code in your question compiles without errors, either you're not really compiling in C99 mode or (less likely) your compiler is buggy. Or the code is incomplete, and there's a
#include <iso646.h> that you haven't shown us.
Most likely you're actually invoking your compiler in C++ mode. To test this, try adding a declaration like:
A C compiler will accept this; a C++ compiler will reject it as a syntax error, since
class is a keyword. (This may be a bit more reliable than testing the
__cplusplus macro; a misconfigured development system could conceivably invoke a C++ compiler with the preprocessor in C mode.)
In C99, the header
<iso646.h> defines 11 macros that provide alternative spellings for certain operators. One of these is
#define and &&
So you can write
if(temp1 ==0 and temp2 == 0)
in C only if you have a
#include <iso646.h>; otherwise it's a syntax error.
<iso646.h> was added to the language by the 1995 amendment to the 1990 ISO C standard, so you don't even need a C99-compliant compiler to use it.
In C++, the header is unnecessary; the same tokens defined as macros by C's
<iso646.h> are built-in alternative spellings. (They're defined in the same section of the C++ standard, 2.6 [lex.digraph], as the digraphs, but a footnote clarifies that the term "digraph" doesn't apply to lexical keywords like
and.) As the C++ standard says:
In all respects of the language, each alternative token behaves the
same, respectively, as its primary token, except for its spelling.
You could use
#include <ciso646> in a C++ program, but there's no point in doing so (though it will affect the behavior of
I actually wouldn't advise using the alternative tokens, either in C or in C++, unless you really need to (say, in the very rare case where you're on a system where you can't easily enter the
& character). Though they're more readable to non-programmers, they're likely to be less readable to someone with a decent knowledge of the C and/or C++ language -- as demonstrated by the fact that you had to ask this question.