Will the below string contain the null terminator '\0'?

std::string temp = "hello whats up";

6 Answers 6


No, but if you say temp.c_str() a null terminator will be included in the return from this method.

It's also worth saying that you can include a null character in a string just like any other character.

string s("hello");
cout << s.size() << ' ';
s[1] = '\0';
cout << s.size() << '\n';


5 5

and not 5 1 as you might expect if null characters had a special meaning for strings.

  • 13
    If you call temp.c_str() the null character will be included. If you really need it in the string just add it like any other character. temp.push_back('\0'). Now temp.c_str() will include two null characters.
    – jahhaj
    Aug 1, 2012 at 5:02
  • 2
    @dupdupdup, as some of the replies have mentioned, if you need a null-terminated string you should call a s.c_str() on the constructred object. It will return a pointer to character array that is guaranteed to have '\0' at the end. Aug 1, 2012 at 5:03
  • @Rico, Jahhaj How to terminate the string then. For eg - I added few characters to my string as str[i]. Now I'm not able to print it using cout. Aug 23, 2016 at 0:52
  • To add to your point : Since the operator << is overloaded so, cout <<s, will although will print the complete string char by char, but , if you take c_str() and put to operator << it will print till the null char. following program depits this point. {string s("SampleString "); cout << s.size() << "\t" << s<<endl; s[3] = '\0'; cout <<"\n\n After Null \n\n"<< s.size() << "\t" << s<<endl; cout << "\n\n Taking c_str \n\n" << s.size() << "\t" << s.c_str() << endl; } Feb 2, 2018 at 4:10
  • 5
    Actually, as of C++11 std::string is guaranteed to be null terminated. Specifically, s[s.size()] will always be '\0'.
    – themeeman
    Nov 8, 2021 at 10:23

Not in C++03, and it's not even guaranteed before C++11 that in a C++ std::string is continuous in memory. Only C strings (char arrays which are intended for storing strings) had the null terminator.

In C++11 and later, mystring.c_str() is equivalent to mystring.data() is equivalent to &mystring[0], and mystring[mystring.size()] is guaranteed to be '\0'.

In C++17 and later, mystring.data() also provides an overload that returns a non-const pointer to the string's contents, while mystring.c_str() only provides a const-qualified pointer.

  • 7
    With C++11, strings are now guaranteed to be contiguous in memory.
    – zneak
    Aug 1, 2012 at 4:53
  • @zneak thanks! Updated. But I doubt there are any at least reasonably C++11-compilant compilers... even GCC has broken support for it.
    – user529758
    Aug 1, 2012 at 4:54
  • 7
    @H2CO3 : C++11 aside, this was addressed in DR 530 in 2005. The vast majority of standard library implementations have stored string data in contiguous memory for at least as long.
    – ildjarn
    Aug 1, 2012 at 5:07
  • 5
    Thank you @ildjarn, I was looking for that exactly. Part of the rationale for the move was that no one on the committee knew of an STL implementation that did not use continuous memory.
    – zneak
    Aug 1, 2012 at 5:09
  • 1
    With C++17, there is now a char * std::string::data() function (returns a modifiable / non-const pointer to the string's contents). See the C++ reference: en.cppreference.com/w/cpp/string/basic_string/data Related thread: stackoverflow.com/a/34179377/9909817 Aug 5, 2021 at 15:14

This depends on your definition of 'contain' here. In

std::string temp = "hello whats up";

there are few things to note:

  • temp.size() will return the number of characters from first h to last p (both inclusive)
  • But at the same time temp.c_str() or temp.data() will return with a null terminator
  • Or in other words int(temp[temp.size()]) will be zero

I know, I sound similar to some of the answers here but I want to point out that size of std::string in C++ is maintained separately and it is not like in C where you keep counting unless you find the first null terminator.

To add, the story would be a little different if your string literal contains embedded \0. In this case, the construction of std::string stops at first null character, as following:

std::string s1 = "ab\0\0cd";   // s1 contains "ab",       using string literal
std::string s2{"ab\0\0cd", 6}; // s2 contains "ab\0\0cd", using different ctr
std::string s3 = "ab\0\0cd"s;  // s3 contains "ab\0\0cd", using ""s operator


  • What do you mean by "int(temp[temp.size()]) will be zero"? Since temp is a std::string, temp[temp.size()] can be undefined. (We can't do temp.at(temp.size()) - out of range). Sep 27, 2022 at 1:27
  • 1
    @starriet temp[temp.size()] is defined since C++11. It's only assigning anything but a char{} to it that would make it undefined. Reading it is never undefined. at checks for pos >= size() but for operator[] the behavior is only undefined for pos > size().
    – Ted Lyngmo
    Feb 8, 2023 at 8:25
  • @TedLyngmo Sorry for being late, thanks! You're right. One question: std::string's operator[] returns a reference to char() if pos==size()(as explained in cppreference.com), but is it guaranteed that the returned char() is indeed the last element of the underlying memory? Or is it just an immediately constructed value, regardless of the actual element residing in the underlying memory of the string? Sep 19, 2023 at 6:00
  • 1
    @starriet Yes it's guaranteed to be the last (accessible) element in a contiguous chunk of memory. If temp = "a"; then &temp[0] + 1 == &temp[temp.size()]. I mentioned accessible because the capacity() may be larger than the size().
    – Ted Lyngmo
    Sep 19, 2023 at 6:05

Yes if you call temp.c_str(), then it will return null-terminated c-string.

However, the actual data stored in the object temp may not be null-terminated, but it doesn't matter and shouldn't matter to the programmer, because when then programmer wants const char*, he would call c_str() on the object, which is guaranteed to return null-terminated string.

  • 1
    Nor will the null terminator (if it exists) be included in the return from temp.size().
    – jahhaj
    Aug 1, 2012 at 4:54

With C++ strings you don't have to worry about that, and it's possibly dependent of the implementation.

Using temp.c_str() you get a C representation of the string, which will definitely contain the \0 char. Other than that, i don't really see how it would be useful on a C++ string


std::string internally keeps a count of the number of characters. Internally it works using this count. Like others have said, when you need the string for display or whatever reason, you can its c_str() method which will give you the string with the null terminator at the end.

  • 1
    Can you give some references for this statement," std::string internally keeps a count of the number of characters. Internally it works using this count"
    – rooni
    Nov 22, 2017 at 13:29

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