static const bool is_specialized

static const int digits

static const int digits10

static const bool is_signed

static const bool is_integer

static const bool is_exact

static const int radix

static const int min_exponent

static const int min_exponent10

static const int max_exponent

static const int max_exponent10

static const bool has_infinity

static const bool has_quietNaN

static const bool has_signalingNaN

static const float_denorm_style has_denorm

static const bool has_denorm_loss

static const bool is_iec559

static const bool is_bounded

static const bool is_modulo

static const bool traps

static const bool tinyness_before

static const float_round_style round_style

The number of radix digits that be represented without change: for integer types, the number of non-sign bits in the mantissa; for floating types, the number of radix digits in the mantissa.

Definition at line 201 of file limits.

The number of base 10 digits that can be represented without change.

Definition at line 203 of file limits.

See std::float_denorm_style for more information.

Definition at line 244 of file limits.

Definition at line 247 of file limits.

True if the type has a representation for positive infinity.

Definition at line 236 of file limits.

True if the type has a representation for a quiet (non-signaling) 'Not a Number.'

Definition at line 239 of file limits.

True if the type has a representation for a signaling 'Not a Number.'

Definition at line 242 of file limits.

Definition at line 255 of file limits.

True if the type uses an exact representation. 'All integer types are exact, but not all exact types are integer. For example, rational and fixed-exponent representations are exact but not integer.' [18.2.1.2]/15

Definition at line 216 of file limits.

True if-and-only-if the type adheres to the IEC 559 standard, also known as IEEE 754. (Only makes sense for floating point types.)

Definition at line 251 of file limits.

True if the type is integer.

Definition at line 211 of file limits.

True if the type is modulo, that is, if it is possible to add two positive numbers and have a result that wraps around to a third number that is less. Typically false for floating types, true for unsigned integers, and true for signed integers.

Definition at line 260 of file limits.

True if the type is signed.

Definition at line 205 of file limits.

This will be true for all fundamental types (which have specializations), and false for everything else.

Definition at line 196 of file limits.

The maximum positive integer such that radix raised to the power of (one less than that integer) is a representable finite floating point number.

Definition at line 230 of file limits.

The maximum positive integer such that 10 raised to that power is in the range of representable finite floating point numbers.

Definition at line 233 of file limits.

The minimum negative integer such that radix raised to the power of (one less than that integer) is a normalized floating point number.

Definition at line 223 of file limits.

The minimum negative integer such that 10 raised to that power is in the range of normalized floating point numbers.

Definition at line 226 of file limits.

For integer types, specifies the base of the representation. For floating types, specifies the base of the exponent representation.

Definition at line 219 of file limits.

See std::float_round_style for more information. This is only meaningful for floating types; integer types will all be round_toward_zero.

Definition at line 269 of file limits.

True if tinyness is detected before rounding. (see IEC 559)

Definition at line 265 of file limits.

True if trapping is implemented for this type.

Definition at line 263 of file limits.