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std::ilogb, std::ilogbf, std::ilogbl - cppreference.com

constexpr int ilogb( /* floating-point-type */ num );

int ilogbf( float num );

int ilogbl( long double num );

#define FP_ILOGB0   /* implementation-defined */

#define FP_ILOGBNAN /* implementation-defined */

template< class Integer >
int ilogb ( Integer num );

1-3) Extracts the value of the unbiased exponent from the floating-point argument num, and returns it as a signed integer value. The library provides overloads of std::ilogb for all cv-unqualified floating-point types as the type of the parameter num.(since C++23)

Expands to integer constant expression whose value is either

or

.

Expands to integer constant expression whose value is either

or

.

A) Additional overloads are provided for all integer types, which are treated as double.

Formally, the unbiased exponent is the integral part of logr|num| as a signed integral value, for non-zero num, where r is std::numeric_limits<T>::radix and T is the floating-point type of num.

If no errors occur, the unbiased exponent of num is returned as a signed int value.

If num is zero, FP_ILOGB0 is returned.

If num is infinite, INT_MAX is returned.

If num is a NaN, FP_ILOGBNAN is returned.

If the correct result is greater than INT_MAX or smaller than INT_MIN, the return value is unspecified.

Errors are reported as specified in math_errhandling.

A domain error or range error may occur if num is zero, infinite, or NaN.

If the correct result is greater than INT_MAX or smaller than INT_MIN, a domain error or a range error may occur.

If the implementation supports IEEE floating-point arithmetic (IEC 60559),

• If the correct result is greater than INT_MAX or smaller than INT_MIN, FE_INVALID is raised.
• If num is ±0, ±∞, or NaN, FE_INVALID is raised.
• In all other cases, the result is exact (FE_INEXACT is never raised) and the current rounding mode is ignored.

If num is not zero, infinite, or NaN, the value returned is exactly equivalent to static_cast<int>(std::logb(num)).

POSIX requires that a domain error occurs if num is zero, infinite, NaN, or if the correct result is outside of the range of int.

POSIX also requires that, on XSI-conformant systems, the value returned when the correct result is greater than INT_MAX is INT_MAX and the value returned when the correct result is less than INT_MIN is INT_MIN.

The correct result can be represented as int on all known implementations. For overflow to occur, INT_MAX must be less than LDBL_MAX_EXP * std::log2(FLT_RADIX) or INT_MIN must be greater than LDBL_MIN_EXP - LDBL_MANT_DIG) * std::log2(FLT_RADIX).

The value of the exponent returned by std::ilogb is always 1 less than the exponent retuned by std::frexp because of the different normalization requirements: for the exponent e returned by std::ilogb, |num*r-e
| is between 1 and r (typically between 1 and 2), but for the exponent e returned by std::frexp, |num*2-e
| is between 0.5 and 1.

The additional overloads are not required to be provided exactly as (A). They only need to be sufficient to ensure that for their argument num of integer type, std::ilogb(num) has the same effect as std::ilogb(static_cast<double>(num)).

Compares different floating-point decomposition functions:

Possible output:

Given the number 123.45 or 0x1.edccccccccccdp+6 in hex,
modf() makes 123 + 0.45
frexp() makes 0.964453 * 2^7
logb()/ilogb() make 1.92891 * 2^6
ilogb(0) = -2147483648
    FE_INVALID raised

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