std::codecvt::in, std::codecvt::do_in

From cppreference.com
Defined in header <locale>
public:

result in( stateT& state,
           const externT* from,
           const externT* from_end,
           const externT*& from_next,
           internT* to,
           internT* to_end,

           internT*& to_next ) const;
(1)
protected:

result do_in( stateT& state,
              const externT* from,
              const externT* from_end,
              const externT*& from_next,
              internT* to,
              internT* to_end,

              internT*& to_next ) const;
(2)

1) public member function, calls the member function do_in of the most derived class.

2) If this codecvt facet defines a conversion, translates the external characters from the source range [from, from_end) to internal characters, placing the results in the subsequent locations starting at to. Converts no more than from_end - from external characters and writes no more than to_end - to internal characters. Leaves from_next and to_next pointing one beyond the last element successfully converted.

If this codecvt facet does not define a conversion, no characters are converted. to_next is set to be equal to to, state is unchanged, and std::codecvt_base::noconv is returned.

Contents

[edit] Return value

A value of type std::codecvt_base::result, indicating the success status as follows:

ok conversion completed
partial not enough space in the output buffer or unexpected end of source buffer
error encountered a character that could not be converted
noconv this facet is non-converting, no output written

The non-converting specialization std::codecvt<char, char, std::mbstate_t> always returns std::codecvt_base::noconv

[edit] Notes

Requires that from <= from_end && to <= to_end and that state either representing the initial shift state or obtained by converting the preceding characters in the sequence.

The effect on state is deliberately unspecified. In standard facets, it is used to maintain shift state like when calling std::mbsrtowcs, and is therefore updated to reflect the conversion state after the last processed external character, but a user-defined facet is free to use it to maintain any other state, e.g. count the number of special characters encountered.

[edit] Example

#include <iostream>
#include <string>
#include <locale>
int main()
{
    std::locale::global(std::locale("en_US.utf8"));
    auto& f = std::use_facet<std::codecvt<wchar_t, char, std::mbstate_t>>(std::locale());
    std::string external = u8"z\u00df\u6c34\U0001d10b"; // or u8"zß水𝄋"
                          // or "\x7a\xc3\x9f\xe6\xb0\xb4\xf0\x9d\x84\x8b";
 
    // note that the following can be done with wstring_convert
    std::mbstate_t mb = std::mbstate_t(); // initial shift state
    std::wstring internal(external.size(), '\0'); 
    const char* from_next;
    wchar_t* to_next;
    f.in(mb, &external[0], &external[external.size()], from_next,
             &internal[0], &internal[internal.size()], to_next);
    // error checking skipped for brevity
    internal.resize(to_next - &internal[0]);
 
    std::wcout << L"The string in wide encoding: " << internal << '\n';
}

Output:

The string in wide encoding: zß水𝄋

[edit] See also

[virtual]
reads from the associated file
(virtual protected member function of std::basic_filebuf)
converts a byte string into a wide string
(public member function of std::wstring_convert)
converts a narrow multibyte character string to wide string, given state
(function)
[virtual]
converts a string from internT to externT, such as when writing to file
(virtual protected member function)