Compiling with gcc-7.1 with the flag -std=c++17, the following program raises an error:

#include <string_view>
void foo(const char* cstr) {}
void bar(std::string_view str){

The error message is

In function 'void bar(std::string_view)':
error: cannot convert 'std::string_view {aka std::basic_string_view<char>}' to 'const char*' for argument '1' to 'void foo(const char*)'

I'm surprised there is no conversion to const char* because other libraries (abseil, bde), provide similar string_view classes which implicitly convert to const char*.


4 Answers 4


A std::string_view doesn't provide a conversion to a const char* because it doesn't store a null-terminated string. It stores a pointer to the first element, and the length of the string, basically. That means that you cannot pass it to a function expecting a null-terminated string, like foo (how else are you going to get the size?) that expects a const char*, and so it was decided that it wasn't worth it.

If you know for sure that you have a null-terminated string in your view, you can use std::string_view::data.

If you're not you should reconsider whether using a std::string_view in the first place is a good idea, since if you want a guaranteed null-terminated string std::string is what you want. For a one-liner you can use std::string(object).data() (note: the return value points to a temporary std::string instance that will get destroyed after the end of the expression!).

  • The explanation for why std::string_view doesn't provide a conversion is great, but only offers a provisional answer to the question.
    – Syndog
    Jan 1, 2019 at 14:11
  • 1
    Your recommendation about std::string(object).data() is a bad one, because in most cases the data will point to unallocated storage.
    – rems4e
    Feb 21, 2020 at 19:59
  • 10
    @rems4e An alarm went off for me as well when I saw std::string(object).data() recommended without the important caveat that the returned pointer is to data inside the temporary std::string object, which lasts only til the end of the largest enclosing expression.
    – Don Hatch
    Apr 2, 2020 at 7:02
  • Please remove std::string(object).data() from the answer or provide an easily visible warning. The std::string(object) here gets deallocated, so the resulting C string is undefined. I've seen this snippet being pasted all over the internet and in various code bases. This answer has caused an immense amount of damage.
    – 23scurtu
    Sep 7, 2021 at 21:47
  • 4
    It is really sad that on stack overflow we're so concerned about idiots who follow cargo cult to the T and copy paste from stack overflow for a living instead of using their brain. I don't understand, how this is even worth a consideration? You either need to pass a temporary string to some function that will do something with it for a bit, or you don't. And given the question, it is perfectly acceptable. Why should anyone care if some idiot can't read and copy pastes blindly things he doesn't even understand? Such idiot shouldn't have a job in the first place, not be shielded by SO answers.
    – user11877195
    Mar 1, 2022 at 9:49

Simply do a std::string(string_view_object).c_str() to get a guaranteed null-terminated temporary copy (and clean it up at the end of the line).

This is required because string view doesn't guarantee null termination. You can have a view into the middle of a longer buffer, for example.

If this use case is expensive and you have proven it to be a bottleneck, you can write an augmented string_view that tracks if it is null terminated (basically, if it was constructed from a raw char const*).

Then you can write a helper type that takes this augmented string_view and either copies it to a std::string or stores the augmented string_view directly, and has an implicit cast-to-char const* that returns the properly null-terminated buffer.

Then use that augmented helper type everywhere in your code base instead of string_view, possibly augmenting string view interaction with std string as well to catch the cases where you have a view that goes to the end of the std string buffer.

But really, that is probably overkill.

A better approach is probably rewriting the APIs that take const char* to take string_view.

  • 2
    by " (and clean it up at the end of the line).", I can continue use the member of that Rvalue til the end of scope that std::string(string_view_object).c_str() sitting, right?
    – sandthorn
    Jan 30, 2018 at 10:28
  • 2
    @sandthorn No, until the end of the full expression, not scope. Jan 30, 2018 at 14:25
  • @sandthorn If you want the string to stick around, you'd maybe prefer std::string TempVar(string_view_object); then where you need it in scope, TempVar.c_str().
    – Ruzihm
    Feb 24, 2021 at 8:10

You can call foo(std::string(str).c_str()).


using object.data() solved my problem with compiler error C2664

  • Are you sure you haven't introduced a bug? Please see the other answers.
    – Bob__
    Nov 30, 2022 at 9:03
  • for my case I needed a pointer to the beginning of the string_view , I was using begin() instead of data() , which resulted in error C2664, and then I chcanged that to data() instead but not sure if that introduces a bug, can you please give more details? Dec 1, 2022 at 8:38
  • It depends on your use case. OP's one is to pass an entire string_view to a function accepting only a const char*. Those functions usually expect null-terminated arrays of char and that isn't guaranteed by std::string_view::data(), unlike std::string::data() (since C++11).
    – Bob__
    Dec 1, 2022 at 9:09
  • 1
    You should not do that! std::string_view does not guarantee that string it posints to is null-terminated. Just do static_cast<std::string>(object).c_str() Yes, temporary copy. But safe and with null-termination
    – IGR94
    Dec 28, 2022 at 15:28

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