It won't be true if `x`

is `NaN`

, since comparisons on `NaN`

are always false (yes, even `NaN == NaN`

). For all other cases (normal values, subnormal values, infinities, zeros) this assertion will be true.

The advice for avoiding `==`

for floats applies to *calculations* due to floating point numbers being unable to express many results exactly when used in arithmetic expressions. Assignment is not a calculation and there's no reason that assignment would yield a different value than the original.

Extended-precision evaluation should be a non-issue if the standard is followed. From `<cfloat>`

inherited from C [5.2.4.2.2.8] (*emphasis mine*):

**Except for assignment and cast (which remove all extra range and precision)**, the values of operations with floating operands and values subject to the usual arithmetic conversions and of floating constants are evaluated to a format whose range and precision may be greater than required by the type.

However, as the comments have pointed out, some cases with certain compilers, build-options, and targets *could* make this paradoxically false.

`-m32`

), or by instructing GCC to use the x87 FPU (`-mfpmath=387`

). – Cody Gray♦ Jan 13 at 18:52