While the question does not explicitly state this, I assume that the output expected by the asker is:

```
g=1.4822e-323 e=1.4822e-323
```

This is what we would expect from a C/C++ compiler that promises strict adherence to IEEE-754. The question is tagged both `C`

and `C++`

, I will address `C99`

here as that is the standard I have in hand.

In Annex F, which describes IEC 60559 floating-point arithmetic (where IEC 60559 is basically another name for IEEE-754) the `C99`

standard specifies:

An implementation that defines `__STDC_IEC_559__`

shall conform to the
specifications in this annex. [...] The `scalbn`

and `scalbln`

functions in `<math.h>`

provide the scalb function recommended in the
Appendix to IEC 60559.

Further down in that annex, section F.9.3.6 specifies:

On a binary system, `ldexp(x, exp)`

is equivalent to `scalbn(x, exp)`

.

The appendix referenced by the `C99`

standard is the appendix of the 1985 version of IEEE-754, where we find the scalb function defined as follows:

Scalb(y, N) returns y × 2^{N} for integral values N without computing 2^{N}.

scalb is defined as a multiplication with a power of two, and multiplications must be rounded correctly based on the current rounding mode according to the standard. Therefore, with a conforming `C99`

compiler `ldexp()`

must return a correctly rounded result **if** the compiler defines `__STDC_IEC_559__`

. In the absence of a library call setting the rounding mode, the default rounding mode "round to nearest or even" is in effect.

I do not have access to MSVC 2013, so I do not know whether it defines that symbol or not. This could even depend on a compiler flag setting, such as `/fp:strict`

.

After tracking down my copy of the C++11 standard, I cannot find any reference to `__STDC_IEC_559__`

or any language about IEEE-754 bindings. According to the answer to this question this is because that support is included by referring to the C99 standard.