_Out_ (note: neither
_in_/_out_ as you wrote, nor
__In__/__Out__ with double underscores, as written in some other answer) are so called SAL Annotations. They can be used with
/analyze compiler option, and can help identify bugs and problems like buffer overruns etc. with raw C buffers and pointers. In addition to MSDN documentation on SAL, you can read also this blog post.
Someone ironically (and wrongly) wrote that:
"In the rest of the world, inputs are const pointers but I guess that
was too simple. :)"
missing the fact that SAL is more powerful than that. In fact, with SAL you can also specify the maximum size of a destination buffer, indicating which parameter contains the destination buffer size; e.g. if you open
<strsafe.h> header, you can read that the actual SAL annotations used for
StringCbPrintfW (the Unicode version of
StringCbPrintf) is something like that:
__out_bcount(cbDest) STRSAFE_LPWSTR pszDest,
__in size_t cbDest,
__in __format_string STRSAFE_LPCWSTR pszFormat,
Note how the
__out_bcount(cbDest) SAL annotation applied to the
pszDest parameter specifies that this is a pointer to an output buffer (
__out), which size is expressed in bytes (
_bcount) by the parameter
cbDest. As you can see, this is a rich annotation (richer than simple "
const" or "non
In my opinion, SAL is kind of useless if you write C++ code with robust container classes like
std::string, which know their own size, etc. But SAL can be useful in C-ish code with raw pointers (like several Win32 APIs).
About the second part of your question:
"Why we need
StringCbPrintf if we already have
the main reason is that
sprintf is an unsafe and buffer overruns-prone function; instead with
StringCbPrintf you must specify the maximum size of the destination buffer, and this can help preventing buffer overruns (which are security enemies).