I understand c_str converts a string, that may or may not be null-terminated, to a null-terminated string.

Is this true? Can you give some examples?

7 Answers 7


c_str returns a const char* that points to a null-terminated string (i.e., a C-style string). It is useful when you want to pass the "contents"¹ of an std::string to a function that expects to work with a C-style string.

For example, consider this code:

std::string string("Hello, World!");
std::size_t pos1 = string.find_first_of('w');

std::size_t pos2 = static_cast<std::size_t>(std::strchr(string.c_str(), 'w') - string.c_str());

if (pos1 == pos2) {
    std::printf("Both ways give the same result.\n");

See it in action.


¹ This is not entirely true because an std::string (unlike a C string) can contain the \0 character. If it does, the code that receives the return value of c_str() will be fooled into thinking that the string is shorter than it really is, since it will interpret \0 as the end of the string.

  • 1
    Very interesting point you made in Notes: what i would like to know if std::string is already contained \0 then c_str also append \0 at the end of string?? Sep 14, 2011 at 12:46
  • 3
    @AmitSinghTomar: Yes, so you will have two null bytes -- one which is legitimately part of the string and one which is supposed to be the null terminator. But the c-style function that receives the pointer doesn't know this.
    – Jon
    Sep 14, 2011 at 12:47
  • Note: a number of C-API will ask for two arguments (char const*, size_t), the second being the size, of course. Sep 14, 2011 at 13:19
  • This is not working: string str("0.85"); newVolume = _tstof((TCHAR*)str.c_str()); how can i convert TCHAR* argv[] input 0.85 into that?
    – user285594
    Jan 31, 2017 at 11:24
  • 1
    @YumYumYum you cannot use std::string together with TCHAR stuff, the whole point of TCHAR is to automatically switch between char/wchar while std::string works only in terms of char. You will have to use an appropriate abstraction, or just simply don't use TCHAR at all and always do a Unicode build.
    – Jon
    Jan 31, 2017 at 13:35

In C++, you define your strings as

std::string MyString;

instead of

char MyString[20];.

While writing C++ code, you encounter some C functions which require C string as parameter.
Like below:

void IAmACFunction(int abc, float bcd, const char * cstring);

Now there is a problem. You are working with C++ and you are using std::string string variables. But this C function is asking for a C string. How do you convert your std::string to a standard C string?

Like this:

std::string MyString;
// ...
MyString = "Hello world!";
// ...
IAmACFunction(5, 2.45f, MyString.c_str());

This is what c_str() is for.

Note that, for std::wstring strings, c_str() returns a const w_char *.


Most old C++ and C functions, when dealing with strings, use const char*.

With STL and std::string, string.c_str() is introduced to be able to convert from std::string to const char*.

That means that if you promise not to change the buffer, you'll be able to use read-only string contents. PROMISE = const char*

  • 1
    @There's no such thing as stl::string. In fact, there isn't even such a thing as "STL" other than in a museum somewhere.
    – Kerrek SB
    Sep 14, 2011 at 12:42
  • 1
    @Kerrek SB: STL is (was?) used as a synonym for the C++ standard library. Feb 6, 2023 at 0:13
  • Here is an example from 2020. Or maybe it is due to old books? Feb 6, 2023 at 2:06
  • Here is another example (2010) - "I'm using the STL string" Feb 6, 2023 at 3:05

In C/C++ programming there are two types of strings: the C strings and the standard strings. With the <string> header, we can use the standard strings. On the other hand, the C strings are just an array of normal chars. So, in order to convert a standard string to a C string, we use the c_str() function.

For example

// A string to a C-style string conversion //

const char *cstr1 = str1.c_str();
cout<<"Operation: *cstr1 = str1.c_str()"<<endl;
cout<<"The C-style string c_str1 is: "<<cstr1<<endl;
cout<<"\nOperation: strlen(cstr1)"<<endl;
cout<<"The length of C-style string str1 = "<<strlen(cstr1)<<endl;

And the output will be,

Operation: *cstr1 = str1.c_str()
The C-style string c_str1 is: Testing the c_str

Operation: strlen(cstr1)
The length of C-style string str1 = 17

c_str() converts a C++ string into a C-style string which is essentially a null terminated array of bytes. You use it when you want to pass a C++ string into a function that expects a C-style string (e.g., a lot of the Win32 API, POSIX style functions, etc.).

  • 5
    I wouldn't say "converts". Rather, the function "provides access" to a suitable read-only character array -- most likely an array which has always been there in the implementation of std::string to begin with.
    – Kerrek SB
    Sep 14, 2011 at 12:41

It's used to make std::string interoperable with C code that requires a null terminated char*.


You will use this when you encode/decode some string object you transfer between two programs.

Let’s say you use Base64 to encode some array in Python, and then you want to decode that into C++. Once you have the string you decode from Base64-decoded in C++. In order to get it back to an array of float, all you need to do here is:

float arr[1024];
memcpy(arr, ur_string.c_str(), sizeof(float) * 1024);

This is pretty common use, I suppose.

  • 1
    That kind of code is not portable (endianness and float format among other)
    – Phil1970
    Nov 3, 2019 at 23:43

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