I have a method that takes std::string_view and uses function, which takes null terminated string as parameter. For example:

void stringFunc(std::experimental::string_view str) {
    some_c_library_func(/* Expects null terminated string */);

The question is, what is the proper way to handle this situation? Is str.to_string().c_str() the only option? And I really want to use std::string_view in this method, because I pass different types of strings in it.


You cannot alter a string through std::string_view. Therefore you cannot add a terminating '\0' character. Hence you need to copy the string somewhere else to add a '\0'-terminator. You could avoid heap allocations by putting the string on the stack, if it's short enough. If you know, that the std::string_view is part of a null-terminated string, then you may check, if the character past the end is a '\0' character and avoid the copy in that case. Other than that, I don't see much more room for optimizations.

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    nice use for VLA. – user1095108 Jun 9 '17 at 16:27
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    @user1095108 but any compiler that allows VLAs in C++ is applying a non-Standard extension, so I would say VLAs can never be nice. :P – underscore_d Jun 20 '17 at 17:48
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    They are practically supported everywhere through alloca, you can make them portable – user1095108 Jun 20 '17 at 21:07

I solved this problem by creating an alternate string_view class called zstring_view. It's privately inherited from string_view and contains much of its interface.

The principal difference is that zstring_view cannot be created from a string_view. Also, any string_view APIs that would remove elements from the end are not part of the interface or they return a string_view instead of a zstring_view.

They can be created from any NUL-terminated string source: std::string and so forth. I even created special user-defined literal suffixes for them: _zsv.

The idea being that, so long as you don't put a non-NUL-terminated string into zstring_view manually, all zstring_views should be NUL-terminated. Like std::string, the NUL character is not part of the size of the string, but it is there.

I find it very useful for dealing with C interfacing.

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  • I just did the same, and I agree the interface is very nice and removes the last reason for ever doing const std::string& as a parameter. You do lose a lot of convenience using the private inheritance (like comparison, and conversion back to string_view) - looking at the interface, it seems the only problematic mutators are remove_***fix and swap - I just reimplemented swap, and added remove_***fix as private non-implemented members, and everything seems to work fine - so you can indeed publicly inherit from std::string_view. Only issue is new mutators added to string_view in the future. – Shaggi Nov 26 '17 at 3:50
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    Although it could be said it is bad style. And additionally, you would have issues with passing zstring_views to functions taking string_view& (which is weird in more than two ways...) – Shaggi Nov 26 '17 at 4:12

You certainly shouldn't call data on std::experimental::string_view:

Unlike basic_string::data() and string literals, data() may return a pointer to a buffer that is not null-terminated.

So call to_string and c_str on that:

void stringFunc(std::experimental::string_view str) {


void stringFunc(std::experimental::string_view str) {
    std::string real_str(str);
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  • string::data() returns a pointer to just the raw character string, which is NOT necessarily null-terminated. If you want a null-terminated string, use string::c_str() – Howard Lee Harkness Mar 21 '18 at 17:45
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    @HowardLeeHarkness since C++11, it is necessarily null-terminated. See e.g. cplusplus.com/reference/string/string/data – minexew Jan 15 at 22:00

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