This issue is "locale" (in how the textual representation of a float is printed out, not the value of the float itself).
Yes, AFAIK, European locales support "," instead of ".":
A common mistake is to implicitly use the default locale when
producing output meant to be machine-readable. This tends to work on
the developer's test devices (especially because so many developers
use en_US), but fails when run on a device whose user is in a more
For example, if you're formatting integers some locales will use
non-ASCII decimal digits. As another example, if you're formatting
floating-point numbers some locales will use ',' as the decimal point
and '.' for digit grouping. That's correct for human-readable output,
but likely to cause problems if presented to another computer
(parseDouble(String) can't parse such a number, for example). You
should also be wary of the toLowerCase() and toUpperCase() overloads
that don't take a Locale
In other words, some APIs are locale-aware, and others aren't. A nasty side effect is that some code might appear to work correctly on a handset that happens to be configured for one locale, and fail (or even crash!) on a handset configured for a different locale.
The trick is to be aware of the issue, and familiar with which APIs are, and aren't, locale-aware.
The example in question, "Float.toString()", isn't.