NAME

std::numeric_limits::traps - std::numeric_limits::traps

Synopsis

static const bool traps; (until C++11)
static constexpr bool traps; (since C++11)

The value of std::numeric_limits<T>::traps is true for all arithmetic types T that
have at least one value that, if used as an argument to an arithmetic operation,
will generate a trap.

Standard specializations

T value of std::numeric_limits<T>::traps
/* non-specialized */ false
bool false
char usually true
signed char usually true
unsigned char usually true
wchar_t usually true
char8_t (C++20) usually true
char16_t (C++11) usually true
char32_t (C++11) usually true
short usually true
unsigned short usually true
int usually true
unsigned int usually true
long usually true
unsigned long usually true
long long (C++11) usually true
unsigned long long (C++11) usually true
float usually false
double usually false
long double usually false

Notes

On most platforms integer division by zero always traps, and
std::numeric_limits<T>::traps is true for all integer types that support the value
0. The exception is the type bool: even though division by false traps due to
integral promotion from bool to int, it is the zero-valued int that traps. Zero is
not a value of type bool.

On most platforms, floating-point exceptions may be turned on and off at run time
(e.g. feenableexcept() on Linux or _controlfp on Windows), in which case the value
of std::numeric_limits<T>::traps for floating-point types reflects the state of
floating-point trapping facility at the time of program startup, which is false on
most modern systems. An exception would be a DEC Alpha program, where it is true if
compiled without -ieee.

See also

Floating-point environment

tinyness_before identifies floating-point types that detect tinyness before rounding
[static] (public static member constant)
has_denorm_loss identifies the floating-point types that detect loss of precision as
[static] denormalization loss rather than inexact result
(public static member constant)