There is this code.
#include <iostream>
#include <climits>
enum e {zero,one};
void main()
{
e num=(e)INT_MAX;
std::cout<<num;
}
Is it defined by the standart that output will be 2147483647?(on condition sizeof(int)=4 bytes)
No; when converting an integer to an enumeration, the enumeration value is only specified if the integer value is within range. From the standard:
where the "range" is described in a rather complicated manner in 7.2/7, and essentially goes up to the smallest value of The compiler is allowed to use any integer type to represent the enumeration, as long as it's large enough to hold all the enumeration values; so in this case, it's free to use a smaller type than 


First, there's no guarantee that Now, if you want to know if you can use values for which there is no enumerator defined, then the answer is "yes". You can use values without a corresponding enumerator, as long as the value fits in the range of the the enum. The maximum value in this range is the smallest 2^n  1 which is greater than or equal to all of the enumerators. In your case, the range is [0,1], so no other values can be used in a welldefined manner. In the following code, the enum range is [0,3], so
The smallest value in the range is 0 if there are no enumerators with negative values. If there are enumerators with negative values, it depends on the representation used by the implementation. If the implementation uses two's complement, it's (max+1), otherwise it's just max. Basically, if there are negative values, the range has one more bit :)
And in C++11 you can specify the underlying type explicitly, if you want to make sure a value will be representable:



Can't find any direct explenation in C++ specs, but can be easily deduced.
Underlying type of enum is compiletime defined. If compiler sees that That means you will not be able to store 


The range of valid enumeration values for an enumeration type is defined as follows in the C++ Working Draft, Section 7.2, paragraph 7: For an enumeration whose underlying type is fixed, the values of the enumeration are the values of the underlying type. Otherwise, for an enumeration where emin is the smallest enumerator and emax is the largest, the values of the enumeration are the values in the range bmin to bmax, defined as follows: Let K be 1 for a two’s complement representation and 0 for a one’s complement or signmagnitude representation. bmax is the smallest value greater than or equal to max(emin ? K, emax) and equal to 2^M ? 1, where M is a nonnegative integer. bmin is zero if emin is nonnegative and ?(bmax + K) otherwise. The size of the smallest bitfield large enough to hold all the values of the enumeration type is max(M, 1) if bmin is zero and M + 1 otherwise. It is possible to define an enumeration that has values not defined by any of its enumerators. If the enumeratorlist is empty, the values of the enumeration are as if the enumeration had a single enumerator with value 0. When converting an arithmetic or enumeration type to an enumeration type, the value is unchanged if it is in the range of enumeration values of the enumeration type. Otherwise, the value is unspecified. To avoid unexpected behavior, the value being converted must be inside of the range of enumeration values. Furthermore, if it is necessary to check for outofrange values dynamically, it must be done before the conversion. 


No. 2147483647 is out of range for this enumeration. Enumeration's range, if there are no negative enumerations, is 0 to 2^k  1, where 2^k is smallest power of 2 for which all enumerations are in range. In this case, that would be 2^1. Therefore any value greater then 2 for 


The type of enum arg is integer.
means
if you assign INT_MAX to a integer type arg. the result is 


sizeof(int) == 4
implies thatint
is 32 bit. But we know what you mean, "on condition thatINT_MAX
has value2147483647
". – Steve Jessop Jan 10 '12 at 11:54