C++ Primer says that character and string literals may be converted to strings.

I tried assigning a character to a string as:

std::string s;
s = 's';

And it gave me no error.

But, when I tried to assign characters to a vector of strings object as:

std::vector<std::string> svec;
svec = {'a', 'b'};

It gave me an error. Why?

  • Did you try to replace single quote by double quotes ? In C/C++ single quotes represent a single char while double quotes are made for text (string in your case) – Sunchock Jun 25 at 10:40
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    Because std::vector cannot implicitly convert char arguments to strings. – vahancho Jun 25 at 10:40

C++ Primer says that character and string literals may be converted to strings.

C-style string literals can convert to std::string implicitly, but chars can't. That's different from assignment.

s = 's'; works because std::string has an overloaded operator= taking char.

  1. Replaces the contents with character ch as if by assign(std::addressof(ch), 1)

svec = {'a', 'b'}; doesn't work because std::vector only has overloaded operator=s taking std::vector or std::initializer_list, both of them can't be constructed from braced-init-list {'a', 'b'}. You might think the overload taking std::initializer_list<std::string> could be used for this case, but char can't be converted to std::string implicitly (std::string doesn't have such converting constructor taking a char), then std::initializer_list<std::string> failed to be constructed from {'a', 'b'}.

As the workaround, you can change the code to

svec = {"a", "b"};

"a" is of type const char[2] and decays const char*, which could be converted to std::string implicitly (via the std::string's converting constructor taking const char*), then std::initializer_list<std::string> gets constructed from {"a", "b"} and passed to std::vector::operator=. Of course svec = {std::string("a"), std::string("b")}; (or svec = {"a"s, "b"s};) works too, std::initializer_list<std::string> will be constructed directly without such implicit conversion to std::string.

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The assignment of a character literal in the first expression works because the std::string class has an overload for the assignment operator that takes char.

The character literal arguments in the second expression cannot be implicitly converted to strings, like string literals can (i.e. svec = {"a", "b"}), because std::string has a constructor for const char* but not for char:

The expression:

svec = {"a", "b"};

uses the constructor

string (const char* s);

The expression:

svec = {'a', 'b'};

does not have such constructor.

What it does have is a constructor that takes an initializer_list (as you can see in the previous link):

string (initializer_list<char> il); 

Available since C++11.

So to initialize std::string with character literals you need to use curly brackets (i.e. braced initializer list) around each character:

std::vector<std::string> svec;
svec = {{'a'}, {'b'}};

This will initialize 2 strings in the first 2 positions of the vector one contains "a" and the other "b".

For a single string in the first position of the vector you can use:

svec = {{'a','b'}};
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  • thanks, but can you explain what these additional brackets do? – Mason Jun 25 at 10:44
  • Note svec = {"a", "b"}; give the same result as svec = {{'a', 'b'}}; without doing the char convertion – Sunchock Jun 25 at 10:44
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    @Mason, they call a string constructor, without it the characters cannot be converted to string. – anastaciu Jun 25 at 10:45

The key to understanding this is initializer lists.

First, note that this does not work:

  std::string s('a');

but this does:

  std::string s{'a'};

The reason is that the first one would require a ctor that takes a single char, but std::string does not have such a constructor. The second, on the other hand, creates an initializer_list<char>, for which std::string does have a ctor.

The exact same reasoning applies to

  std::vector<std::string>> vs{ 'a', 'b' };


  std::vector<std::string>> vs{ {'a'}, {'b'} };

The first wants to use a non-existent std::string ctor taking a char, and the second uses initializer lists.

As for the original code, the reason that

  std::string s;
  s = 'a';

works is that while std::string lacks a ctor taking a char, it does have an assignment operator which takes a char.

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Consider the following example:

#include <initializer_list>
#include <vector>
#include <string>
#include <type_traits>

int main() {
    std::vector<std::string> svec;
    // Non-ambigously deduced to std::initializer_list<char>.
    auto a = {'a', 'b'};
    static_assert(std::is_same_v<std::initializer_list<char>, decltype(a)>);
    // (A)
    // error: no match for 'operator=' (... std::vector<std::string> and 'std::initializer_list<char>')
    //svec = a;  
    //svec = std::initializer_list<char>{'a', 'b'};
    // error:
    // error: unable to deduce 'std::initializer_list<auto>' from '{{'a', 'b'}}'
    //auto b = {{'a', 'b'}};
    // (B)
    // OK. 
    // After all the following copy assingnments, svec.size() is 1 (a single "ab" element).
    svec = {{'a', 'b'}};
    svec = std::initializer_list<std::string>{{'a', 'b'}};
    svec = std::initializer_list<std::string>{std::initializer_list<char>{'a', 'b'}};
    svec = std::initializer_list<std::string>{"ab"};

The error message at (A) is self-explanatory: there exist no copy assignment operator for std::vector<std::string> to assign a std::initializer_list<char> argument to it. The only near-viable overload of std::vector<T,Allocator>::operator= requires an argument of type std::initializer_list<T>:

vector& operator=( std::initializer_list<T> ilist );

Replaces the contents with those identified by initializer list ilist.

but T in this example is std::string, thus this overload is not viable.

In (B), on the other hand, we use the nested braced init syntax {{'a', 'b'}} such that the inner braced init list represents a std::initializer_list<char>, which may make use of the following std::string constructor:

basic_string( std::initializer_list<CharT> ilist,
                const Allocator& alloc = Allocator() );

to create a single std::string temporary which is in turned part of the outer braced init list, making use of std::vector copy assignment operator mention above:

vector& operator=( std::initializer_list<T> ilist )

The result of the different variations of (B) is the same: copy assigning to the svec vector a vector of a single std::string element.

Finally, note that if you were to copy assign to svec using a braced init list of "-separated strings, the result is copy assigning a vector of two elements:

svec = {"a", "b"};  // svec.size() is now 2

as we are no directly creating a std::initializer_list<std::string> of two elements, as compared to above where a std::initializer_list<char> of several characters result in a single string. I.e., a single std::string object is also a container of (zero or) several char elements.

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