The reason is that a C-style string is defined as a sequence of bytes that ends with a null byte. When you use
.c_str() to get a C-style string out of a C++
std::string, then you're getting back the sequence the C++ string stores with a null byte after it. When you pass this into
strlen, it will scan across the bytes until it hits a null byte, then report how many characters it found before that. If the
string contains a null byte, then
strlen will report a value that's smaller than the whole length of the string, since it will stop before hitting the real end of the string.
An important detail is that
char_traits<char>::length are NOT the same function. However, the C++ ISO spec for
char_traits<charT>::length (§21.1.1) says that
char_traits<charT>::length(s) returns the smallest
i such that
char_traits<charT>::eq(s[i], charT()) is true. For
eq function just returns if the two characters are equal by doing a
== comparison, and constructing a character by writing
char() produces a null byte, and so this is equal to saying "where is the first null byte in the string?" It's essentially how
strlen works, though the two are technically different functions.
std::string, however, it a more general notion of "an arbitrary sequence of characters." The particulars of its implementation are hidden from the outside world, though it's probably represented either by a start and stop pointer or by a pointer and a length. Because this representation does not depend on what characters are being stored, asking the
std::string for its length tells you how many characters are there, regardless of what those characters actually are.
Hope this helps!