In many code samples, people usually use '\0' after creating a new char array like this:

string s = "JustAString";
char* array = new char[s.size() + 1];
strncpy(array, s.c_str(), s.size());
array[s.size()] = '\0';

Why should we use '\0' here?

  • 12
    cstrings aren't usually the best idea in c++ code Jun 8 '12 at 4:23
  • C string, which is a essentially a char array, must be NUL terminated. Otherwise, the functions in string.h will not function as expected.
    – nhahtdh
    Jun 8 '12 at 4:24
  • 3
    In C, you will see this a lot. In C++, there are probably better ways to get the same thing accomplished.
    – jedwards
    Jun 8 '12 at 4:24
  • So that compiler knows that the string ended.
    – cppcoder
    Jun 8 '12 at 4:47
  • 5
    it is not for the compiler, it is for the libraries and possibly your code. C does not support arrays properly. You can have local arrays, but there is no way to pass them about. If you try you just pass the start address (address of first element). So you can ever have the last element be special e.g. '\0' or always pass the size, being careful not to mess up. I use a set of macros to pass a start-address, length bi-tuple. Structures are another way. Classes are the best way. But C did not have classes. Jun 8 '12 at 9:55

The title of your question references C strings. C++ std::string objects are handled differently than standard C strings. \0 is important when using C strings, and when I use the term string here, I'm referring to standard C strings.

\0 acts as a string terminator in C. It is known as the null character, or NUL. It signals code that processes strings - standard libraries but also your own code - where the end of a string is. A good example is strlen which returns the length of a string.

When you declare a constant string with:

const char *str = "JustAString";

then the \0 is appended automatically for you. In other cases, where you'll be managing a non-constant string as with your array example, you'll sometimes need to deal with it yourself. The docs for strncpy, which is used in your example, are a good illustration: strncpy copies over the null termination characters except in the case where the specified length is reached before the entire string is copied. Hence you'll often see strncpy combined with the possibly redundant assignment of a null terminator. strlcpy and strcpy_s were designed to address the potential problems that arise from neglecting to handle this case.

In your particular example, array[s.size()] = '\0'; is one such redundancy: since array is of size s.size() + 1, and strncpy is copying s.size() characters, the function will append the \0.

The documentation for standard C string utilities will indicate when you'll need to be careful to include such a null terminator. But read the documentation carefully: as with strncpy the details are easily overlooked, leading to potential buffer overflows.

  • So, how are strings in C++ terminated? I figured out that they are not NULL terminated, because on adding '\0' at any arbitrary index does not trim the string like in C, but it only replaces that index in string by an empty character. Mar 7 '17 at 16:04
  • 1
    @CaptainDaVinci They're not necessarily terminated since the length is stored internally. If you call c_str() then you'll get a properly terminated buffer, but only because you asked nicely.
    – tadman
    Dec 11 '17 at 18:35

Why are strings in C++ usually terminated with '\0'?

Note that C++ Strings and C strings are not the same.
In C++ string refers to std::string which is a template class and provides a lot of intuitive functions to handle the string.
Note that C++ std::string are not \0 terminated, but the class provides functions to fetch the underlying string data as \0 terminated c-style string.

In C a string is collection of characters. This collection usually ends with a \0.
Unless a special character like \0 is used there would be no way of knowing when a string ends.
It is also aptly known as the string null terminator.

Ofcourse, there could be other ways of bookkeeping to track the length of the string, but using a special character has two straight advantages:

  • It is more intuitive and
  • There are no additional overheads

Note that \0 is needed because most of Standard C library functions operate on strings assuming they are \0 terminated.
For example:
While using printf() if you have an string which is not \0terminated then printf() keeps writing characters to stdout until a \0 is encountered, in short it might even print garbage.

Why should we use '\0' here?

There are two scenarios when you do not need to \0 terminate a string:

  • In any usage if you are explicitly bookkeeping length of the string and
  • If you are using some standard library api will implicitly add a \0 to strings.

In your case you already have the second scenario working for you.

array[s.size()] = '\0';

The above code statement is redundant in your example.

For your example using strncpy() makes it useless. strncpy() copies s.size() characters to your array, Note that it appends a null termination if there is any space left after copying the strings. Since arrayis of size s.size() + 1 a \0 is automagically added.

  • 1
    Not necessarily. You can also store an arbitary-length array by keeping the length somewhere (like how Java works.. I assume). Jun 8 '12 at 4:25
  • @BrendanLong: Hope that answers.
    – Alok Save
    Jun 8 '12 at 4:28
  • @BrendanLong I'm assuming edit went through after that comment but as pointed out it removes additional overhead. To do it the way you're suggesting you would need to make a struct with an int as well as the array and that would offer worse performance and consume more memory. Jun 8 '12 at 4:30
  • 2
    @evanmcdonnal More overhead, yes, but the idea that the null pointer has "no overhead" is untrue -- it's one extra character (1-4 bytes). If you're using UTF32 (for some reason), then they'd be exactly the same size. Storing the length is also much faster in any case where you need to look up the length (since with a null terminator, you need to walk all the way through the string to figure out its length). I'm just trying to point out that it's not "one way is obviously better". It's notable that C++ stores the length for strings and vectors. Jun 8 '12 at 4:33
  • 1
    I also disagree with the "more intuitive" point, since storing the length of your data seems just as intuitive to me as using a sentinel value. Jun 8 '12 at 4:34

'\0' is the null termination character. If your character array didn't have it and you tried to do a strcpy you would have a buffer overflow. Many functions rely on it to know when they need to stop reading or writing memory.

strncpy(array, s.c_str(), s.size());
array[s.size()] = '\0';

Why should we use '\0' here?

You shouldn't, that second line is waste of space. strncpy already adds a null termination if you know how to use it. The code can be rewritten as:

strncpy(array, s.c_str(), s.size()+1);

strncpy is sort of a weird function, it assumes that the first parameter is an array of the size of the third parameter. So it only copies null termination if there is any space left after copying the strings.

You could also have used memcpy() in this case, it will be slightly more efficient, though perhaps makes the code less intuitive to read.

  • or the other way around, strncpy being so weird perhaps makes the code less intuitive than the straightforward memcpy. But when I see code as shown above, my first reflex is usually to check if copying data to an array could not be completely avoided by direct use of c_str() content, because the final zero is often added to strings that wont be modified afterward (output strings).
    – kriss
    Aug 20 '12 at 20:36
  • use strcpy(array, &s[0]); if you want to copy to the first \0. (which is std::strlen(&s[0])+1 many chars) use strncpy(array, &s[0], s.size()+1); if you want to copy to the first \0 and fill the rest with \0... use memcpy(array, &s[0], s.size()+1); if you want to copy the given size from &s[0]. (so embed \0 wont clear the rest of the string)
    – Puddle
    Jan 25 '19 at 14:35

In C, we represent string with an array of char (or w_char), and use special character to signal the end of the string. As opposed to Pascal, which stores the length of the string in the index 0 of the array (thus the string has a hard limit on the number of characters), there is theoretically no limit on the number of characters that a string (represented as array of characters) can have in C.

The special character is expected to be NUL in all the functions from the default library in C, and also other libraries. If you want to use the library functions that relies on the exact length of the string, you must terminate the string with NUL. You can totally define your own terminating character, but you must understand that library functions involving string (as array of characters) may not work as you expect and it will cause all sorts of errors.

In the snippet of code given, there is a need to explicitly set the terminating character to NUL, since you don't know if there are trash data in the array allocated. It is also a good practice, since in large code, you may not see the initialization of the array of characters.

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