I have a class:

class Symbol_t {
   Symbol_t( const char* rawName ) {
      memcpy( m_V, rawName, 6 * sizeof( char ) );

   string_view strVw() const {
      return string_view( m_V, 6 );

   char m_V[6];

}; // class Symbol_t

and there is a lib-func that I can't modify:

extern bool loadData( const string& strSymbol );

If there is a local variable:

Symbol_t   symbol( "123456" );

When I need to call loadData, I dare not do it like this:

loadData( string( symbol.strVw().begin(), symbol.strVw().end() ) );

I have to do like this:

string_view svwSym = symbol.strVw();
loadData( string( svw.begin(), svw.end() ) );

My question: Is the first method correct? or I must use the second one?

Because I think that in Method 1, the iterators I passed to the constructor of std::string, are of two Different string_vew objects, and theoretically the result is undefined, even though we would get expected result with almost all of the C++ compilers.

Any hints will be appreciated! thanks.

3 Answers 3


There is no need to use the c'tor taking a range. std::string has a constructor that operates in terms of std::string_view, number 10 in the list. The effect of which is

template < class T >
explicit basic_string( const T& t, const Allocator& alloc = Allocator() ); 

Implicitly converts t to a string view sv as if by std::basic_string_view<CharT, Traits> sv = t;, then initializes the string with the contents of sv, as if by basic_string(sv.data(), sv.size(), alloc). This overload only participates in overload resolution if std::is_convertible_v<const T&, std::basic_string_view<CharT, Traits>> is true and std::is_convertible_v<const T&, const CharT*> is false.

Since both conditions hold for std::string_view itself, we can write the call to loadData as simply:

loadData( std::string( symbol.strVw() ) );
  • 2
    You said implicitly, but it is explicit, right?
    – markus
    Commented Feb 22 at 16:48
  • @markus - The string c'tor is, obtaining a string_view is done implicitily inside this c'tor. Commented Feb 22 at 17:05

If you have some string_view in C++ that you want to convert into string format (so you can return to a function after doing all your analyses, for example), you can make that change by doing this:

string_view sv;
string s = {sv.begin(), sv.end()};

Going the other way, to get a string_view from a string (so to get a pointer to that string) you can do this:

string s;
string_view sv = string_view(s);

Note that substring and a variety of other operations can be performed on string_view just as on string.

  • Doesn't this make a full copy of the string though? The primary purpose of string_view is to avoid doing exactly that. Commented Nov 22, 2022 at 11:13
  • @Roflcopter4 a std::string is a value type owning the memory for the string. Instanciating the std::string has to do a full-copy, because that is exactly what is requested by using this type.
    – Ad N
    Commented Mar 29, 2023 at 10:09

Is the first method correct?

It is, since strVw returns identical string_views: they all point to the same m_V and have the same size.

The correctness here depends on how strVw is implemented.

or I must use the second one?

I would create a conversion function:

inline std::string as_string(std::string_view v) { 
    return {v.data(), v.size()}; 

And use that:


This method is safe regardless of strVw implementation.

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