When should I write the keyword inline for a function/method in C++?

After seeing some answers, some related questions:

  • When should I not write the keyword 'inline' for a function/method in C++?

  • When will the compiler not know when to make a function/method 'inline'?

  • Does it matter if an application is multithreaded when one writes 'inline' for a function/method?

13 Answers 13


Oh man, one of my pet peeves.

inline is more like static or extern than a directive telling the compiler to inline your functions. extern, static, inline are linkage directives, used almost exclusively by the linker, not the compiler.

It is said that inline hints to the compiler that you think the function should be inlined. That may have been true in 1998, but a decade later the compiler needs no such hints. Not to mention humans are usually wrong when it comes to optimizing code, so most compilers flat out ignore the 'hint'.

  • static - the variable/function name cannot be used in other translation units. Linker needs to make sure it doesn't accidentally use a statically defined variable/function from another translation unit.

  • extern - use this variable/function name in this translation unit but don't complain if it isn't defined. The linker will sort it out and make sure all the code that tried to use some extern symbol has its address.

  • inline - this function will be defined in multiple translation units, don't worry about it. The linker needs to make sure all translation units use a single instance of the variable/function.

Note: Generally, declaring templates inline is pointless, as they have the linkage semantics of inline already. However, explicit specialization and instantiation of templates require inline to be used.

Specific answers to your questions:

  • When should I write the keyword 'inline' for a function/method in C++?

    Only when you want the function to be defined in a header. More exactly only when the function's definition can show up in multiple translation units. It's a good idea to define small (as in one liner) functions in the header file as it gives the compiler more information to work with while optimizing your code. It also increases compilation time.

  • When should I not write the keyword 'inline' for a function/method in C++?

    Don't add inline just because you think your code will run faster if the compiler inlines it.

  • When will the compiler not know when to make a function/method 'inline'?

    Generally, the compiler will be able to do this better than you. However, the compiler doesn't have the option to inline code if it doesn't have the function definition. In maximally optimized code usually all private methods are inlined whether you ask for it or not.

    As an aside to prevent inlining in GCC, use __attribute__(( noinline )), and in Visual Studio, use __declspec(noinline).

  • Does it matter if an application is multithreaded when one writes 'inline' for a function/method?

    Multithreading doesn't affect inlining in any way.

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  • 172
    +1 Best description of inline I have seen in ... (forever). I will now rip you off and use this in all my explanations of the inline keyword. – Martin York Nov 19 '09 at 1:37
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    @Ziggy, what I was trying to say was that compiler inlining and the inline keyword are not related. You've got the right idea though. As a rule, guessing what would would be improved by inlining is very error prone. The exception to that rule being one liners. – deft_code Aug 15 '11 at 18:50
  • 4
    This answer confuses me a bit. You say all that about the compiler being able to inline / not inline things better. Then you say that you should put one liners / small functions in the header, and that the compiler can't inline code without the function definition. Aren't these a bit contradictory? Why not just put everything in the cpp file and let the compiler decide? – user673679 Apr 3 '13 at 17:22
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    The compiler will only inline function calls where the definition is available at the call site. Leaving all function in the cpp file would limit inlining to that file. I suggest defining small one liners inline in the .h as the cost to compilation speed is negligible and you're almost guaranteed the compiler will inline the call. My point about compiler inlining is that it is port of the black art of optimization, at which your compiler is much better than you are. – deft_code Apr 3 '13 at 18:21
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    Whenever I read something to the account of the internet's cumulative knowledge I have to think of John Lawton's famous quote: The irony of the Information Age is that it has given new respectability to uninformed opinion. – IInspectable Sep 11 '13 at 17:58

I'd like to contribute to all of the great answers in this thread with a convincing example to disperse any remaining misunderstanding.

Given two source files, such as:

  • inline111.cpp:

    #include <iostream>
    void bar();
    inline int fun() {
      return 111;
    int main() {
      std::cout << "inline111: fun() = " << fun() << ", &fun = " << (void*) &fun;
  • inline222.cpp:

    #include <iostream>
    inline int fun() {
      return 222;
    void bar() {
      std::cout << "inline222: fun() = " << fun() << ", &fun = " << (void*) &fun;

  • Case A:


    g++ -std=c++11 inline111.cpp inline222.cpp


    inline111: fun() = 111, &fun = 0x4029a0
    inline222: fun() = 111, &fun = 0x4029a0


    1. Even thou you ought to have identical definitions of your inline functions, C++ compiler does not flag it if that is not the case (actually, due to separate compilation it has no ways to check it). It is your own duty to ensure this!

    2. Linker does not complain about One Definition Rule, as fun() is declared as inline. However, because inline111.cpp is the first translation unit (which actually calls fun()) processed by compiler, the compiler instantiates fun() upon its first call-encounter in inline111.cpp. If compiler decides not to expand fun() upon its call from anywhere else in your program (e.g. from inline222.cpp), the call to fun() will always be linked to its instance produced from inline111.cpp (the call to fun() inside inline222.cpp may also produce an instance in that translation unit, but it will remain unlinked). Indeed, that is evident from the identical &fun = 0x4029a0 print-outs.

    3. Finally, despite the inline suggestion to the compiler to actually expand the one-liner fun(), it ignores your suggestion completely, which is clear because fun() = 111 in both of the lines.

  • Case B:

    Compile (notice reverse order):

    g++ -std=c++11 inline222.cpp inline111.cpp


    inline111: fun() = 222, &fun = 0x402980
    inline222: fun() = 222, &fun = 0x402980


    1. This case asserts what have been discussed in Case A.

    2. Notice an important point, that if you comment out the actual call to fun() in inline222.cpp (e.g. comment out cout-statement in inline222.cpp completely) then, despite the compilation order of your translation units, fun() will be instantiated upon it's first call encounter in inline111.cpp, resulting in print-out for Case B as inline111: fun() = 111, &fun = 0x402980.

  • Case C:

    Compile (notice -O2):

    g++ -std=c++11 -O2 inline222.cpp inline111.cpp


    g++ -std=c++11 -O2 inline111.cpp inline222.cpp


    inline111: fun() = 111, &fun = 0x402900
    inline222: fun() = 222, &fun = 0x402900


    1. As is described here, -O2 optimization encourages compiler to actually expand the functions that can be inlined (Notice also that -fno-inline is default without optimization options). As is evident from the outprint here, the fun() has actually been inline expanded (according to its definition in that particular translation unit), resulting in two different fun() print-outs. Despite this, there is still only one globally linked instance of fun() (as required by the standard), as is evident from identical &fun print-out.
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  • 8
    Your answer is an illustrative post of why language makes such inline functions to be undefined behavior. – R Sahu May 29 '18 at 15:50
  • You ought to also add cases where compiling and linking is separate, with each .cpp being its own translation unit. Preferably, add cases for -flto enabled/disabled. – syockit Nov 5 '19 at 4:29
  • The C++ reference explicitly sais "If an inline function or variable (since C++17) with external linkage is defined differently in different translation units, the behavior is undefined.". So the stuff you wrote is GCC specific as it is a side effect of orchestration of the compilation and linkage processes. Also, notice that this might vary between versions. – Petr Fiedler Feb 1 at 1:29

You still need to explicitly inline your function when doing template specialization (if specialization is in .h file)

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1) Nowadays, pretty much never. If it's a good idea to inline a function, the compiler will do it without your help.

2) Always. See #1.

(Edited to reflect that you broke your question into two questions...)

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  • Yes. The inline is only a hint to the compiler, and it is free to ignore you. These days the compiler probably knows better than the programmer which functions are best to inline. – Mark Byers Nov 18 '09 at 21:51
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    Yes, but it's less relevant - for a function to be inlined, it's body must be in the same compilation unit (for instance, in a header). That's less common in C programs. – Michael Kohne Nov 18 '09 at 21:57
  • 1
    defining a non-member function template (aka non-static function template) does not require inline. See one definition rule(3.2/5). – deft_code Nov 18 '09 at 23:42
  • 2
    -1: inline is still needed, for example to define a function in a header file (and that is required for inlining such a function in several compilation units). – Melebius Nov 18 '14 at 11:25
  • 1
    @Étienne that's implementation-specific. Per standard, there's One Definition Rule, which means here that if you naively include the function definition in multiple translation units, you'll get an error. But if that function has inline specifier, its instances are automagically collapsed into one by the linker, and ODR isn't used. – Ruslan Nov 22 '16 at 14:11

When should I not write the keyword 'inline' for a function/method in C++?

If the function is declared in the header and defined in the .cpp file, you should not write the keyword.

When will the the compiler not know when to make a function/method 'inline'?

There is no such situation. The compiler cannot make a function inline. All it can do is to inline some or all calls to the function. It can't do so if it hasn't got the code of the function (in that case the linker needs to do it if it is able to do so).

Does it matter if an application is multithreaded when one writes 'inline' for a function/method?

No, that does not matter at all.

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  • There are cases where it is appropriate to use inline in a .cpp file. E.g. applying optimizations to code that is entirely implementation specific. – Robin Davies Apr 9 at 1:18
  • @RobinDavies updated answer. It seems you misunderstood what I wanted to write. – Johannes Schaub - litb Apr 9 at 11:55
  • When will the the compiler not know when to make a function/method 'inline'?

This depends on the compiler used. Do not blindly trust that nowadays compilers know better then humans how to inline and you should never use it for performance reasons, because it's linkage directive rather than optimization hint. While I agree that ideologically are these arguments correct encountering reality might be a different thing.

After reading multiple threads around I tried out of curiosity the effects of inline on the code I'm just working and the results were that I got measurable speedup for GCC and no speed up for Intel compiler.

(More detail: math simulations with few critical functions defined outside class, GCC 4.6.3 (g++ -O3), ICC 13.1.0 (icpc -O3); adding inline to critical points caused +6% speedup with GCC code).

So if you qualify GCC 4.6 as a modern compiler the result is that inline directive still matters if you write CPU intensive tasks and know where exactly is the bottleneck.

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  • 6
    I'd like to see more evidence to back up your claims. Please provide code you are testing with as well as assembler output with and without inline keyword. Any number of things could have given you performance benefits. – void.pointer May 13 '14 at 20:59
  • 1
    Finally someone who doesn't only repeat what others say, but does actually verify those statements. Gcc does indeed still consider the inline keyword as a hint (I think clang ignores it completely). – MikeMB Dec 5 '16 at 8:21
  • @void.pointer: Why is this so hard to believe? If optimizers were perfect already, then new versions couldn't improve the program performance. But they regularly do. – MikeMB Dec 5 '16 at 8:23

In reality, pretty much never. All you're doing is suggesting that the compiler make a given function inline (e.g., replace all calls to this function /w its body). There are no guarantees, of course: the compiler may ignore the directive.

The compiler will generally do a good job of detecting + optimizing things like this.

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  • 7
    The problem is that inline has a semantic difference in C++ (e.g. in the way multiple definitions are treated), which is important in some cases (e.g. templates). – Pavel Minaev Nov 18 '09 at 22:55
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    inline is used to resolve cases where a symbol has multiple definitions. Templates however are already handled by the language. One exception is a specialized template function that doesn't have any template paramters anymore (template<>). These are treated more like functions than templates and so need the inline keyword in order to link. – deft_code Nov 18 '09 at 23:47

gcc by default does not inline any functions when compiling without optimization enabled. I don't know about visual studio – deft_code

I checked this for Visual Studio 9 (15.00.30729.01) by compiling with /FAcs and looking at the assembly code: The compiler produced calls to member functions without optimization enabled in debug mode. Even if the function is marked with __forceinline, no inline runtime code is produced.

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  • 1
    Enable /Wall to be told about which functions where marked inline but didn't actually get inlined – paulm Jan 2 '14 at 15:17

You want to put it in the very beginning, before return type. But most Compilers ignore it. If it's defined, and it has a smaller block of code, most compilers consider it inline anyway.

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Unless you are writing a library or have special reasons, you can forget about inline and use link-time optimization instead. It removes the requirement that a function definition must be in a header for it to be considered for inlining across compilation units, which is precisely what inline allows.

(But see Is there any reason why not to use link time optimization?)

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When developing and debugging code, leave inline out. It complicates debugging.

The major reason for adding them is to help optimize the generated code. Typically this trades increased code space for speed, but sometimes inline saves both code space and execution time.

Expending this kind of thought about performance optimization before algorithm completion is premature optimization.

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  • 12
    inline functions are typically not inlined unless compiling with optimizations, so they do not affect debugging in any way. Remember that it's a hint, not a demand. – Pavel Minaev Nov 18 '09 at 22:54
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    gcc by default does not inline any functions when compiling without optimization enabled. I don't know about visual studio – deft_code Nov 18 '09 at 23:07
  • I worked on an enormous g++ project which had debugging enabled. Maybe other options prevented it, but the inline functions were inlined. It was impossible to set a meaningful breakpoint in them. – wallyk Nov 18 '09 at 23:19
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    enabling debugging doesn't stop inlining in gcc. If any optimization where enabled (-O1 or greater), then gcc will try to inline the most obvious cases. Traditionally GDB has had a hard time with breakpoints and constructors especially inline constructors. But, that has been fixed in recent versions (at least 6.7, maybe sooner). – deft_code Nov 18 '09 at 23:51
  • 2
    Adding inline will do nothing to improve the code on a modern compiler, which can figure out whether to inline or not on its own. – David Thornley Nov 20 '09 at 22:22

When one should inline :

1.When one want to avoid overhead of things happening when function is called like parameter passing , control transfer, control return etc.

2.The function should be small,frequently called and making inline is really advantageous since as per 80-20 rule,try to make those function inline which has major impact on program performance.

As we know that inline is just a request to compiler similar to register and it will cost you at Object code size.

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  • "inline is just a request to compiler similar to register" They're similar because neither are requests or have anything to do with optimisation. inline has lost its status as an optimisation hint, and most compilers only use it to make allowances for multiple definitions - as IMO they should. More so, since C++11, register has fully been deprecated for its prior meaning of 'I know better than the compiler how to optimise': it's now just a reserved word with no current meaning. – underscore_d Oct 4 '16 at 20:20
  • @underscore_d: Gcc still listens to inline to some degree. – MikeMB Dec 5 '16 at 8:27

C++ inline function is powerful concept that is commonly used with classes. If a function is inline, the compiler places a copy of the code of that function at each point where the function is called at compile time.

Any change to an inline function could require all clients of the function to be recompiled because compiler would need to replace all the code once again otherwise it will continue with old functionality.

To inline a function, place the keyword inline before the function name and define the function before any calls are made to the function. The compiler can ignore the inline qualifier in case defined function is more than a line.

A function definition in a class definition is an inline function definition, even without the use of the inline specifier.

Following is an example, which makes use of inline function to return max of two numbers

#include <iostream>

using namespace std;

inline int Max(int x, int y) { return (x > y)? x : y; }

// Main function for the program
int main() {
   cout << "Max (100,1010): " << Max(100,1010) << endl;

   return 0;

for more information see here.

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