How does the string constructor handle char[] of a fixed size when the actual sequence of characters in that char[] could be smaller than the maximum size?

char foo[64];//can hold up to 64
char* bar = "0123456789"; //Much less than 64 chars, terminated with '\0'
strcpy(foo,bar); //Copy shorter into longer
std::string banz(foo);//Make a large string

In this example will the size of the banz objects string be based on the original char* length or the char[] that it is copied into?


2 Answers 2


First you have to remember (or know) that char strings in C++ are really called null-terminated byte strings. That null-terminated bit is a special character ('\0') that tells the end of the string.

The second thing you have to remember (or know) is that arrays naturally decays to pointers to the arrays first element. In the case of foo from your example, when you use foo the compiler really does &foo[0].

Finally, if we look at e.g. this std::string constructor reference you will see that there is an overload (number 5) that accepts a const CharT* (with CharT being a char for normal char strings).

Putting it all together, with

std::string banz(foo);

you pass a pointer to the first character of foo, and the std::string constructor will treat it as a null-terminated byte string. And from finding the null-terminator it knows the length of the string. The actual size of the array is irrelevant and not used.

If you want to set the size of the std::string object, you need to explicitly do it by passing a length argument (variant 4 in the constructor reference):

std::string banz(foo, sizeof foo);

This will ignore the null-terminator and set the length of banz to the size of the array. Note that the null-terminator will still be stored in the string, so passing a pointer (as retrieved by e.g. the c_str function) to a function which expects a null-terminated string, then the string will seem short. Also note that the data after the null-terminator will be uninitialized and have indeterminate contents. You must initialize that data before you use it, otherwise you will have undefined behavior (and in C++ even reading indeterminate data is UB).

As mentioned in a comment from MSalters, the UB from reading uninitialized and indeterminate data also goes for the construction of the banz object using an explicit size. It will typically work and not lead to any problems, but it does break the rules set out in the C++ specification.

Fixing it is easy though:

char foo[64] = { 0 };//can hold up to 64

The above will initialize all of the array to zero. The following strcpy call will not touch the data of the array beyond the terminator, and as such the remainder of the array will be initialized.

  • 1
    It might be worth emphasizing that "You must initialize that data past \0 before you use it," also includes using it in `std::string banz(foo, sizeof foo);``
    – MSalters
    Commented Oct 17, 2018 at 12:01
  • @Caleth I know + with the last edit of the answer, I dont see anymore a chance of getting it wrong, comment deleted Commented Oct 17, 2018 at 12:03
  • I don't think reading indeterminate chars is not UB; that is not true of other types. Commented Oct 17, 2018 at 12:08
  • @Yakk-AdamNevraumont: in your first sentence, you have a double negative. This is UB in English.
    – stefaanv
    Commented Oct 17, 2018 at 12:12
  • 1
    You can use char foo[64] = {}; too in newer standards; an important departure from C.
    – Bathsheba
    Commented Oct 17, 2018 at 12:25

The constructor called is one that takes a const char* as an argument. That constructor attempts to copy the character data pointed to by that pointer, until the first NUL terminator is reached. If there is no such NUL terminator then the behaviour of the constructor is undefined.

Your foo type is converted to a char* by pointer decay, then an implicit conversion to const char* occurs at the calling site.

Perhaps there could have been a templatised std::string constructor taking a const char[N] as an argument, which would have allowed the insertion of more than one NUL character (the std::string class after all does support that), but it was not introduced and to do so now would be a breaking change; using

std::string foo{std::begin(foo), std::end(foo)};

will also copy the entire array foo.

  • 1
    cppreference gives a constructor with char* and int to make a string out of the array instead of the c-style string
    – stefaanv
    Commented Oct 17, 2018 at 11:51
  • @stefaanv there is also a char *, int constructor as well as the char * constructor mentioned here. but there isn't an automatic conversion from template <size_t N> foo(char (&str)[N]) to foo(char *, size_t)
    – Caleth
    Commented Oct 17, 2018 at 11:58
  • 2
    @stefaanv: I'd argue that the canonical C+11 way is std::string foo{ std::begin(array), std::end(array) };.
    – MSalters
    Commented Oct 17, 2018 at 12:03

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