There are several constructors for std::string. I was looking for a way to avoid reallocation and I'm surprised that there is a fill constructor but no "reserve" constructor.

 std::string (size_t n, char c);

but no

 std::string (size_t n);

So do I have to call reserve() after it already allocated the default (16 bytes in my case), just to immediately reallocate it?

Is there a reason why there is no such constructor to reserve space directly when the object is created, instead of having to do it manually? Or am I missing something and there is some way to do this?

Using the fill constructor is a waste of time, because it will loop through the memory just to get overwritten, and also cause a wrong size, because s.length() reports N instead of 0.

  • Are you sure 16 bytes are reserved per default? (sizeof(std::string) has nothing to do with that) – deviantfan Sep 23 '15 at 11:54
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    @deviantfan, that's implementation-defined – SingerOfTheFall Sep 23 '15 at 11:55
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    @SimonKraemer, I know that I can use reserve, but I wanted to specify the planned size when I create the object already and avoid allocating the (possible) default size first. – Devolus Sep 23 '15 at 11:57
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    it's not guaranteed that reserve() is faster – TemplateRex Sep 23 '15 at 12:00
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    @Devolus: Since you're talking about VS2010 it uses the Small String Optimization and the initial capacity isn't actually dynamically allocated. – Blastfurnace Sep 23 '15 at 12:08

This is all guesswork, but I'll try.

If you already know the size of the string that you need, you will most likely be copying data from somewhere else, e.g. from another string. In that case, you can call one of the constructors that accept char * or const std::string & to copy the data immediately.

Also, I can't see why using reserve right after constructing a string is a bad thing. While it is implementation-defined, I would assume that it would make sense for this code:

std::string str;

to allocate memory for a total of 100 elements, not 116 (as in "allocate 16 first, then free them and allocate 100 more"), thus having no performance impact over the non-existent reserve constructor.

Also, if you just want an empty string without the default allocation at all, you can presumably use std::string str(0, ' '); which invalidates the "Using the fill constructor is a waste of time" point.

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    That std::string str(0, ' '); indeed prevented the default allocation (VS2010). I verfied that this just happens in a debug build, so it wouldn't be a problem anymore, but anyway, this was what I was looking for. – Devolus Sep 23 '15 at 13:05
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    When std::string provides you some initial capacity from the default constructor, it is because they just come built-in with some stack space. There is nothing special to allocate and deallocate. – David Stone May 5 '16 at 14:04
  • Why would you use std::string str(0, ' ') and not std::string str(0, 0 /* or '\0' */ ) ? – H-005 Aug 27 '20 at 13:12

One of the use cases for reserve constructor might be using std::string with static/thread_local storage for cache variables.

void function(){
   thread_local std::string str; // no reserving constructor defined

For such scenarios, you may write a lambda function which constructs a std::string and also reserves desired amount of memory.

void function(){
    auto reserving_string_constr = [](std::size_t reserve_size){
        std::string str;
        return str;
    thread_local std::string str(reserving_string_constr(128));

you can basically ask the same question about every std::string method that is not embodied as a constructor.

for example, why don't we have a constructor which takes multiple strings and appends them one by one to the newly created string?

there can be many reasons why not to overload a constructor which reserve a memory. I think that in an Object Oriented setmind, the thought of a "reserved memory string" is a bit odd. the string represents a sequence of characters, not the memory behind it - which is implementation details, not the main feature.
when someone opens a new resturant, does he think to himself "when this resturant is finally open, on the very moment of opening I will reserve 100 sits for the alleged 100-people group that may or may not come!"

but your question implicitly states something very quitly: the lack of proper buffer objects in C++. you ask about reserve constructor because you want to use string as buffer, but zero-initializing them is very costly. reserveing the memory won't let you write beyond the string size.
so the solution to this problem is to use unique_ptr<char[]> which will not zero -initialize the characters, yet will give you the RAII style you are looking for.

  • I don't see how a unique_ptr object would help here because it doesn't give me the functionality of std::string. – Devolus Sep 23 '15 at 13:01
  • what functionality for example? – David Haim Sep 23 '15 at 13:06
  • For example: str += txt; – Devolus Sep 23 '15 at 13:09
  • then use std::copy. there is no magical way here, either use std::string ctor. + reserve or use other ways to achieve that , like using char[] with std::copy + keeping the index. – David Haim Sep 23 '15 at 13:11
  • Then why are there reserve constructors for other things such as std::vector? The idea is that sometimes you know how long the string would be, and if there is a constructor like this: string(size_t n, char x), why wouldn't there also be a constructor like this: string(size_t)? – H-005 Aug 27 '20 at 13:19

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