The different construction syntaxes in C++ have always confused me a bit. In another question, it was suggested to try initializing a string like so

std::string foo{ '\0' };

This works and produces the intended result: a string of length 1 containing only the null character. In testing the code, I accidentally typed

std::string foo('\0');

This compiles fine (no warnings even with -Wall), but terminates at runtime with

terminate called after throwing an instance of 'std::logic_error'
  what():  basic_string::_M_construct null not valid
Aborted (core dumped)

Now, as far as I can tell, there is no constructor for std::string which takes a single character as an argument, and this hypothesis is further confirmed when I attempt to pass the character indirectly.

char b = '\0';
std::string a(b);

This produces a nice, lengthy compile error. As does this

std::string a('z');

So my question is: what allows std::string a('\0'); to compile, and what makes it different from std::string a{ '\0' };?

Footnote: Compiling using g++ on Ubuntu. This doesn't strike me as a compiler bug, but just in case...

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    My wild guess is that this '\0' gets interpreted as 0, and 0 is further thought to be nullptr. "null not valid" seems to back that theory. That said, I'd expect this to at least throw a warning. – CookiePLMonster Jan 15 '18 at 0:13
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    For better or worse, \0 is a null pointer constant, so std::string foo('\0'); is equivalent to std::string foo(NULL); and calls a constructor taking char*. But that constructor doesn't expect NULL - passing it exhibits undefined behavior. – Igor Tandetnik Jan 15 '18 at 0:15
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    Note that since C++14, '\0' is not a null pointer constant anymore, so you should get a compile error. – Brian Jan 15 '18 at 5:29
  • @Brian Hm... that would be very nice. But even when compiling with -std=c++14 or -std=c++17, it still compiles without an error. Perhaps g++ hasn't fully implemented the new standard yet. – Silvio Mayolo Jan 15 '18 at 5:47
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    g++ 7 rejects this code. – cpplearner Jan 15 '18 at 5:57

Character '\0' is implicitly convertible to integer value of 0 thus representing implementation-defined null pointer constant. This:

std::string foo('\0');

calls a constructor overload accepting pointer of type const char* as a parameter and results in undefined behavior. It is equivalent to passing 0 or NULL:

std::string foo(0); // UB
std::string bar(NULL); // UB

The reference for the 4th and 5th constructor overloads states:

The behavior is undefined if s... including the case when s is a null pointer.

The second statement:

std::string foo{'\0'}; // OK

calls a constructor accepting std::initializer_list<char> as a parameter and does not cause UB.

You could call the constructor overload accepting count number of chars instead:

std::string s(1, '\0');

With C++ 14 or C++17 or C++11, this undefined behavior results in a compile error in both clang5.0 and gcc7.2.

std::string S('\0');

error: no matching function for call to 'std::__cxx11::basic_string::basic_string(char)' std::string S('\0'); ^

The UB is fixed(to give a compiler error) in recent compiler versions.

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