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Why is it that you can insert a '\0' char in a std::basic_string and the .length() method is unaffected but if you call char_traits<char>::length(str.c_str()) you get the length of the string up until the first '\0' character?


string str("abcdefgh");
cout << str.length(); // 8
str[4] = '\0';
cout << str.length(); // 8
cout << char_traits<char>::length(str.c_str()); // 4
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1 Answer 1

up vote 14 down vote accepted

Great question!

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 strlen and 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 char_traits<char>, the 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.

A C++ 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!

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+1, and I'd just add that if you really want the internal null bytes, I believe one can use the basic_string<>::data() member function. –  dappawit Mar 16 '11 at 0:24
@dappawit- It's not that c_str() takes out the null bytes and that data() leaves them in; rather, they both have the null bytes in them, and c_str() guarantees that there's a null byte at the end and data doesn't. The issue is how those bytes internal to the string are interpreted by functions that are used to a C-style string implementation. –  templatetypedef Mar 16 '11 at 0:31
Aha! You added the part I was about to put into an answer. –  mkb Mar 16 '11 at 0:32
Which brings me to my next question, what is the point of Character Traits if the string class doesn't even seem to use it? (Don't answer that here) –  MattSmith Mar 16 '11 at 0:36
@MattSmith- See my (long) answer to your other question. The short version is that std::string does use the traits class, which gives you incredible flexibility. –  templatetypedef Mar 16 '11 at 0:59

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