I have 2 ways of returning an empty string from a function.


std::string get_string()
   return "";


std::string get_string()
   return std::string();

which one is more efficient and why?

  • 18
    Neither. Use return {};.
    – Kerrek SB
    Oct 27, 2014 at 12:00
  • 2
    And how does this relate to C?
    – crashmstr
    Oct 27, 2014 at 12:01
  • 6
    This falls into the realm of useless micro-optimization that your compiler will optimize away using RVO and copy elision. Oct 27, 2014 at 12:01
  • @KerrekSB could you elaborate why?
    – Bowdzone
    Oct 27, 2014 at 12:02
  • 5
    Because it's direct initialization with the default constructor, rather than copy initialization (from a possibly dynamically evaluated constructor). The default constructor may be implemented as no-allocation constexpr if your implementation is so inclined.
    – Kerrek SB
    Oct 27, 2014 at 12:04

3 Answers 3


Gcc 7.1 -O3 these are all identical, godbolt.org/z/a-hc1d – jterm Apr 25 at 3:27

Original answer:

Did some digging. Below is an example program and the relevant assembly:


#include <string>

std::string get_string1(){ return ""; }

std::string get_string2(){ return std::string(); }

std::string get_string3(){ return {}; }           //thanks  Kerrek SB

int main()


    pushl   %ebx
    .cfi_def_cfa_offset 8
    .cfi_offset 3, -8
    subl    $40, %esp
    .cfi_def_cfa_offset 48
    movl    48(%esp), %ebx
    leal    31(%esp), %eax
    movl    %eax, 8(%esp)
    movl    $LC0, 4(%esp)
    movl    %ebx, (%esp)
    call    __ZNSsC1EPKcRKSaIcE
    addl    $40, %esp
    .cfi_def_cfa_offset 8
    movl    %ebx, %eax
    popl    %ebx
    .cfi_restore 3
    .cfi_def_cfa_offset 4
    ret $4

    movl    4(%esp), %eax
    movl    $__ZNSs4_Rep20_S_empty_rep_storageE+12, (%eax)
    ret $4

    movl    4(%esp), %eax
    movl    $__ZNSs4_Rep20_S_empty_rep_storageE+12, (%eax)
    ret $4

This was compiled with -std=c++11 -O2.

You can see that there is quite a lot more work for the return ""; statement and comparably little for return std::string and return {}; (these two are identical).

As Frerich Raabe said, when passing an empty C_string, it still needs to do processing on it, instead of just allocating memory. It seems that this can't be optimised away (at least not by GCC)

So the answer is to definitely use:

return std::string();


return {};   //(c++11)

Although unless you are returning a lot of empty strings in performance critical code (logging I guess?), the difference is going to still be insignificant.

  • 5
    Maybe this needs an update as of 2017 all of the three possibilities returns yields the same asm result so there's no issues about returning an "" or an std::string{} or {}. Tested on compiler explorer for clang & gcc Jul 19, 2017 at 10:53
  • @TomazCanabrava I should have noted gcc version at the time... If you want to provide clang and gcc versions that you tested, I'll note this in the answer.
    – Baldrickk
    Jul 19, 2017 at 12:19
  • @TomazCanabrava actually, when I try gcc and clang with the above, I get similar results (gcc 7.1/clang4.0.0). interestingly enough, Visual studio (2015) provides results that are consistent between each version, but does more work in all cases.
    – Baldrickk
    Jul 19, 2017 at 12:50
  • 4
    Also worth noting is that return {}; is a C++ extension, so return std::string(); should be preferred.
    – Baldrickk
    Jul 19, 2017 at 12:52

The latter version is never slower than the first. The first version calls the std::string constructor taking a C string, which then has to compute the length of the string first. Even though that's fast to do for an empty string, it's certainly not faster than not doing it at all.

  • As it is a constant that is being returned, is the length calculation not optimised away by the compiler? If not, could it be?
    – Baldrickk
    Oct 27, 2014 at 12:06
  • @Baldrickk He's calling the one argument constructor of std::string. I don't think that there are many (if any) compilers that are clever enough to deduce that the one argument constructor is the equivalent of the constructor taking both a pointer and a size, provided it passes one less than the size of the string literal (which has a trailing '\0'). Oct 27, 2014 at 12:23
  • @JamesKanze: some compilers optimise strlen() on a string literal - I requested the feature be added to SparcWorks C++ more than a decade ago - don't know if they ever did it - GCC already did it back then. Still - I wouldn't necessarily expect a C++ implementation to use strlen... never know though. Oct 27, 2014 at 12:54
  • @JamesKanze Confirmed what you said. See my answer.
    – Baldrickk
    Oct 27, 2014 at 13:04

These are all 100% identical performance-wise

string construction comparison with identical perf

I threw in another common approach where you return a superglobal variable (practically people usually keep these as a static in a StringUtility class):

// Super global variable
string EmptyString;

string getEmptyQuotes() { return ""; }
string getBraces()      { return {}; }
string getCtor()        { return string(); }
string getVar()         { return EmptyString; }

So it's just a question of style, I guess

  • Not for GCC 13.2, or CLang 3.8, or CLang 8.0, ..., in fact you only tested it for one version of one compiler.
    – user207421
    Apr 18 at 5:23
  • Here is the assembly. When something shows even only near eq perf on one version of one compiler you're pretty much safe to assume your micro-optimization will make absolutely no difference anywhere (unless a specific compiler is very deficient in some manner)
    – bobobobo
    Apr 18 at 21:32
  • 'Here is the assembly' from one version of one compiler. You can't draw general conclusions from a sample size of one. Try it with CLang and see for yourself. Your experimental procedure is invalid, so your conclusion is worthless. All that is needed is one counter-example, and I have produced three.
    – user207421
    Apr 18 at 22:39
  • You'd have to show me a timed difference in the actual code performance to convince me that differences in how the compiled code looks would actually have a perf impact. This question was originally about "efficiency"
    – bobobobo
    Apr 19 at 0:02
  • This test shows there could be a very small perf difference between them, but that code has optimizations disabled. If you enable optimizations, the unused variables code appears to just get skipped. I'm not sure how to make the compiler not optimize away variable the way quick-bench does
    – bobobobo
    Apr 19 at 0:10

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