I want to force a little function not to be compiled as inline function even if it's very simple. I think this is useful for debug purpose. Is there any keyword to do this?

  • 14
    The debugger can handle inlined functions just fine. No need to prevent inlining because of that.
    – jalf
    Jul 25 '10 at 12:48
  • 13
    Not really. Great way to hang the debugger for many minutes while it sets thousands of breakpoints. Jul 25 '10 at 16:41
  • 10
    When stepping through optimized code (which you basically have to do at the assembly language level) it's sometimes nice to see calls to functions sometimes so you can follow where you are, and step over them in one go -- since the compiler's view of "simple" may not be yours. (The debugger may cope fine with all of this, but it's the computer operator that has to actually do the work...)
    – please delete me
    Jul 25 '10 at 18:18
  • 4
    In addition to debugging, I also wanted to do this for profiling purposes. A function was being inlined without me indicating that it should be. However, that was the specific function that I had wanted to see in the profile. May 2 '11 at 17:20
  • 7
    @thecoshman There are times where you have to debug release code, or you have dumps of release code
    – Ghita
    Jan 5 '13 at 18:47

In Visual Studio 2010, __declspec(noinline) tells the compiler to never inline a particular member function, for instance:

class X {
     __declspec(noinline) int member_func() {
          return 0; 

edit: Additionally, when compiling with /clr, functions with security attributes never get inlined (again, this is specific to VS 2010).

I don't think it will prove at all useful at debugging, though.

  • The documentation says it's for member functions only: msdn.microsoft.com/en-us/library/kxybs02x.aspx . Is there a way to make a free-standing function non-inline? Aug 22 '16 at 6:37
  • Something to note is that inline functions exist in the same translation unit where they are called from, meaning that, for example, any global static variable included into that translation unit is used in place of the same global static variable also included into the file where the inline function is declared/defined(non-inline functions use the copy of the global static variable included into their definition file ). So it could possibly make a difference between compilations whether the function is inlined or not. Jul 1 '20 at 14:24

__declspec(noinline) for VC++. Contrary to the man page, this appears to work for freestanding functions, and I don't think I've ever used it for a member function. You may -- though note that I never have -- want to consider playing with the optimization flags too, so that only inline functions are considered for inlining, though of course this has a global effect and that may not be what you want.

__attribute__((noinline)) for gcc (and a number of less-common compilers that support the gcc attribute syntax). I must admit, I don't think I've ever actually used this, but it appears to be there.

(Of course, these two styles of annotation go in different places, so it's a bit annoying to construct code that's palatable to both.)

I'm not sure how either of these interact with the inline C++ keyword; I've only used them when debugging (when I just want a particular non-inline function left not inline after optimization) or when examining generated code (and I'm getting confused because random stuff is being inlined).

  • 1
    it works for member functions too. One interesting note to take is that it seems to make non inline calls to containing functions also (even though they would be inline otherwise) - VS 2012
    – Ghita
    Jan 5 '13 at 18:49
  • how check via cmake what compiler used:vc++ or gcc and make define noinline?
    – ilw
    Nov 17 '17 at 13:51

Please remember that inlining is relevant at the function call site, the same function can be inlined in some situations and not inlined in other.

If your function is visible outside the compilation unit then even if it's inlined in all the current places it's used, the body of the function must still be available for anyone who wants to call it later on (by linking with the object file).

In order to have a call site not inlined you can use a pointer to a function.

void (*f_ptr)(int); // pointer to function
volatile bool useMe = true; // disallow optimizations 
if (useMe)
   f_ptr = myFunc;
   f_ptr = useOtherFunc;

f_ptr(42); // this will not be inlined

[[gnu::noinline]] attribute

We can also use the C++11 attribute specifier syntax with the non-standard gnu::noinline attribute: https://en.cppreference.com/w/cpp/language/attributes

It is just a matter of time until that gnu:: part gets dropped a future C++ standard to give a standardized [[noinline]] :-)


int my_func() {
    return 1;

int main() {
    return my_func();

Compile and disassemble:

g++ -ggdb3 -O3 -o main.out -std=c++11 -Wall -Wextra -pedantic-errors main.cpp
gdb -batch -ex 'disassemble/r main' main.out

With [[gnu::noinline]]:

   0x0000000000001040 <+0>:     f3 0f 1e fa     endbr64 
   0x0000000000001044 <+4>:     e9 f7 00 00 00  jmpq   0x1140 <my_func()>

Without [[gnu::noinline]]:

   0x0000000000001040 <+0>:     f3 0f 1e fa     endbr64 
   0x0000000000001044 <+4>:     b8 01 00 00 00  mov    $0x1,%eax
   0x0000000000001049 <+9>:     c3      retq

Tested on Ubuntu 19.10.


Simple: Don't let the compiler see the definition of the function. Then it cannot possibly be inlined. Of course, that only works if its your code.

When it comes to debugging 3rd party code... yes, this would be useful, especially if you could zap 3rd party code from afar. Anyone who has debugged code that contains lot of shared_ptr dereferencing knows what I'm talking about.


Many compilers can perform cross-translation-unit inlining. Visual Studio has had it for five years and I believe that GCC can now do it- especially since the OP tagged as Visual C++, it's a fair bet that his compiler can cope.

The simplest way to do this is to take the function's address, and then do something non-meaningless with it, like call it or pass it to an OS/external library function. The compiler can't inline that kind of function.

Why you would ever want to, IDK.


If the OP srsly, srsly needs this, then he could compile it as a lib and statically link to it.

  • 9
    While taking the address of a function requires the compiler to provide a non-inlined version of it, I don't think it requires it to not to inline it in other places.
    – sbi
    Jul 25 '10 at 13:18
  • 3
    That doesn't stop it from inlining a function. As sbi correctly pointed out, it'll just produce a non-inlined version.
    – wheaties
    Jul 25 '10 at 13:30
  • I'm fairly sure that the VC++ documentation says that it won't inline any function where it's address is taken. However, you certainly can't move it between translation units, and if you can't take it's address, then the only way to be certain is to compile it in an external lib.
    – Puppy
    Jul 25 '10 at 13:41
  • 1
    Sorry to nitpick, but "the previous two answers" is kind of unhelpful. Hard to say which answers you're referring to.
    – jalf
    Jul 25 '10 at 16:06
  • jalf: You're almost certainly right. Didn't have much time when writing said answer.
    – Puppy
    Jul 25 '10 at 17:22

If it is a member function of a class, make it virtual.

  • 11
    Won't necessarily work; if the method can be devirtualized, it can still be inlined.
    – Alice
    Mar 13 '14 at 9:18

You can divide the class implementation between a header and cpp file. if you put the function outside of the class definition, your little function wont be inline.

  • 6
    On some, but not all compilers, this will work. OTOH I have a beef with whoever downvoted this and didn't even leave a comment explaining why.
    – Ben Voigt
    Jul 25 '10 at 18:20

Is it possible to force a function not to be inlined?

I won't even attempt to answer that question, because it's irrelevant to be concerned with this except for the two reasons outlined below.

Inlining basically is

  1. an optimization that's mostly transparent to you
  2. a way to allow functions to be defined in headers without getting multpile definition errors

(Some would switch the order of these two, but I stick to the traditional order.)

Unless either A) you absolutely need to define a function in some header or B) you are profiling and optimizing a piece of code and know better than the compiler what should be inlined and what shouldn't, inlining should be of no concern to you.
It certainly shouldn't be a concern because of debugging. Your debugger should (and in the case of VC also does) take care of that for you.

  • 21
    @sbi I am one of the downvoters. A real function has a symbol in the object code, it offers several benefits over an peace of inlined code. You can track them from a debugger or dynamic code analyser. With a profiler you can know the exact amount of time spent in the function, it's hard when the peace of code is merged in another bigger peace of code. You can dynamically rename the function, or even substitute this function by another one at runtime.
    – Ben
    Apr 28 '11 at 14:12
  • 8
    @sbi : It's not absurd, you can't evaluate the cost of an inlined function. By dynamic code analyser I mean tools like valgrind purify or insure++. Yes I was thinking of late binding or re-binding, I use it sometime tracing purpose. Anyway I don't know what Thomson wanted but it may not be irrelevant to him that's why I downvoted.
    – Ben
    Apr 28 '11 at 16:13
  • 21
    I down-voted this because it negates the OP's question instead of answering it.
    – nolandda
    Oct 9 '12 at 21:07
  • 10
    I came here from a Google search "visual c++ prevent inlining", so, yeah, it is useful to have a real answer to the question. In my case I wanted to get variables in predictable order and location on the stack, and couldn't think of any other way besides having them PUSHed as parameters to a function. That way my first variable is always at [EBP+8], my second at [EBP+C] and so forth. Jan 18 '13 at 11:45
  • 12
    I also downvoted you. It's one thing to answer the question as posed AND offer advice as to why alternative solutions might be preferable, but it's another entirely to say "I won't even attempt to answer that question" and proceed to provide advice based on possibly incorrect assumptions about what the OP is doing. And anyway, there are legitimate reasons to prevent inlining. In addition to those already stated, if you're doing runtime mocking of dependencies for testing, you cannot mock inlined functions, and you must ensure your mocks themselves are not inlined or they will not work. Jun 24 '14 at 5:40

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