Provides 16-bit floating point support.

The qfloat16 class provides support for half-precision (16-bit) floating point data. It is fully compliant with IEEE 754 as a storage type. This implies that any arithmetic operation on a qfloat16 instance results in the value first being converted to a float . This conversion to and from float is performed by hardware when possible, but on processors that do not natively support half-precision, the conversion is performed through a sequence of lookup table operations.

qfloat16 should be treated as if it were a POD (plain old data) type. Consequently, none of the supported operations need any elaboration beyond stating that it supports all arithmetic operators incident to floating point types.

Note

On x86 and x86-64 that to get hardware accelerated conversions you must compile with F16C or AVX2 enabled, or use qFloatToFloat16() and qFloatFromFloat16() which will detect F16C at runtime.

Defining this macro disables the arithmetic operators for qfloat16.

This is only necessary on Visual Studio 2017 (and earlier) when including <QFloat16> and <bitset> in the same translation unit, which would otherwise cause a compilation error due to a toolchain bug (see [QTBUG-72073]).

Returns a qfloat16 with the sign of sign but the rest of its value taken from this qfloat16. Serves as qfloat16’s equivalent of std::copysign().

Implements qFpClassify() for qfloat16.

See also

qFpClassify()

Returns true if this qfloat16 value is finite and in normal form.

See also

qFpClassify()

Converts len qfloat16 from in to floats and stores them in out . Both in and out must have len allocated entries.

This function is faster than converting values one by one, and will do runtime F16C detection on x86 and x86-64 hardware.

Converts len floats from in to qfloat16 and stores them in out . Both in and out must have len allocated entries.

This function is faster than converting values one by one, and will do runtime F16C detection on x86 and x86-64 hardware.

Compares the floating point value p1 and p2 and returns true if they are considered equal, otherwise false .

The two numbers are compared in a relative way, where the exactness is stronger the smaller the numbers are.

Returns true if the qfloat16 f is a finite number.

See also

qIsFinite

Returns true if the qfloat16 f is equivalent to infinity.

See also

qIsInf

Returns true if the qfloat16 f is not a number (NaN).

See also

qIsNaN

Rounds value to the nearest integer.

See also

qRound

Rounds value to the nearest 64-bit integer.

See also

qRound64