If I declare this:
int i = 0 + 'A';
is 'A' considered char or int?
some people might use:
int i = 0 + (int)'A';
but is this really necessary?
3 Answers
In C, character constants such as 'A' are of type int. In C++, they're of type char.
In C, the type of a character constant rarely matters. It's guaranteed to be int, but if the language were changed to make it char, most existing code would continue to work properly. (Code that explicitly refers to sizeof 'A' would change behavior, but there's not much point in writing that unless you're trying to distinguish between C and C++, and there are better and more reliable ways to do that. There are cases involving macros where sizeof 'A' might be sensible; I won't get into details here.)
In your code sample:
int i = 0 + 'A';
0 is of type int, and the two operands of + are promoted, if necessary, to a common type, so the behavior is exactly the same either way. Even this:
char A = 'A';
int i = 0 + A;
does the same thing, with A (which is of type char) being promoted to int. Expressions of type char are usually, but not always, implicitly promoted to int.
In C++, character constants are of type char -- but the same promotion rules apply. When Stroustrup designed C++, he changed the type of character constants for consistency (it's admittedly a bit surprising that A is of type int), and to enable more consistent overloading (which C doesn't support). For example, if C++ character constants were of type int, then this:
std::cout << 'A';
would print 65, the ASCII value of 'A' (unless the system uses EBCDIC); it makes more sense for it to print A.
int i = 0 + (int)'A';
The cast is unnecessary in both C and C++. In C, 'A' is already of type int, so the conversion has no effect. In C++, it's of type char, but without the cast it would be implicitly converted to int anyway.
In both C and C++, casts should be viewed with suspicion. Both languages provide implicit conversions in many contexts, and those conversions usually do the right thing. An explicit cast either overrides the implicit conversion or creates a conversion that would not otherwise take place. In many (but by no means all) cases, a cast indicates a problem that's better solved either by using a language-provided implicit conversion, or by changing a declaration so the thing being converted is of the right type in the first place.
(As Pascal Cuoq reminds me in comments, if plain char is unsigned and as wide as int, then an expression of type char will be promoted to unsigned int, not to int. This can happen only if CHAR_BIT >= 16, i.e., if the implementation has 16-bit or bigger bytes, and if sizeof (int) == 1, and if plain char is unsigned. I'm not sure that any such implementations actually exist, though I understand that C compilers for some DSPs do have CHAR_BIT > 8.)
answered Aug 24, 2013 at 20:41
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1What are your references? So accurate and beautiful answer! Are you teacher? Aug 24, 2013 at 21:00
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“In C++, it's of type char, but without the cast it would be implicitly converted to int” You know what I am going to say, don't you? Alright, I won't say it. Aug 24, 2013 at 21:00
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1The MISRA C committee put their collective feet down rather had on no implicit conversions and many industries now use MISRA C for quality checking. Aug 24, 2013 at 21:08
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@SteveBarnes Who is talking about a conversion here?
'A'has typeint.0has typeint. In C++, where'A'has typechar, its becoming of typeintis a promotion and it is unavoidable. If you write(int)'A'then'A'is promoted tointbefore the cast. See 6.3.1.1 in the C99 standard, for instance. Aug 24, 2013 at 21:18 -
1You need to read the beginning of 6.3, as well as the footnote. The sentence you quoted applies only to contexts where integer promotion occurs. The operand of a cast is not one of those contexts. Similarly, in an assignment:
char x = ..., y = ...; x = y;, the value ofyis not promoted tointand then converted back tochar; it's just assigned as achar. The point is that C doesn't require support for arithmetic operations on types narrower thanint; other operations are required. Aug 24, 2013 at 23:23
In C, 'A' type is int (not char). I think some people do int i = 0 + (int)'A'; in C++ (or make code useful in both C++/C).
answered Aug 24, 2013 at 20:08
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3In C++
'A'ischar(notint): Trysizeof('A'), sizeof(int), sizeof(char)in C++ and in C both. Aug 24, 2013 at 20:14 -
@carlos Someone might doing this because they don't know
'A'is int in C. quit possible (casting is superflus because of implicit cast even in C++ also) Aug 24, 2013 at 20:48 -
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According to the standard ISO C99, the type of a literal character in C is int.
However, the literal characters, like 'c', have a range that fits in a char.
Thus, you can assign a literal character to a char variable without loss of information.
char c = 'c'; /* 'c' is int, but (c == 'c') is true */
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You are confusing the question here with the other question “Why do some standard library functions return an
intin C?”. These two questions are completely different. The answer to the question “Why do some standard library functions return anintin C?” involves the typeunsigned char. Your answer does not make sense for either question. Aug 24, 2013 at 22:59 -
int.'A'was of typechar, the cast would have no effect on all but the most exotic platforms. To be precise, if'A'was a signed char type (eithersigned charorcharwhen it is signed), there could never be any difference, and ifAwas an unsignedchartype (eitherunsigned charorcharwhen it is unsigned), thenintandcharwould have to be the same size for a difference to be visible.0 +good for? Even in0 + 'A'it serves no purpose and even less :) in0 + (int)'A'.'A'is achar, andcharis a numeric type. It will be implicitly cast tointwhen paired withinton a binary operator, per standard C casting rules.'A'is anint. C99 6.4.4.4:10 “An integer character constant has type int.”