It's portable to the extent that if you write a particular sequence of bytes from one system, transfer that sequence to another system (by file or by socket, it doesn't really matter), you can read back the same sequence of bytes on the other side. If you write or read in text mode rather than binary mode, then line-endings (and I think in theory other implementation-defined special characters) might be re-interpreted.
What isn't portable is the precise representation of
double as a sequence of bytes, either binary or formatted. Binary because of for example endian-ness, and formatted because of subtle differences in the runtime libraries that might mean your results can be a ulp (or sometimes more) different when encoding to string by one system and back to
double by another, even if you output what should be enough decimal digits of precision. The string representation of NaN values is also left to the implementation.
As far as the C++ standard is concerned,
double isn't required to be an IEEE double precision value. So there could in theory be nothing in common between the binary representations, and also big differences in terms of which values can be represented and hence which strings are output/accepted when doing formatted I/O. In practice, IEEE is commonly used and strings usually don't introduce any more error than you'd expect in floating-point operations.