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Does __attribute__((always_inline)) force a function to be inlined by gcc?

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  • 41
    GCC uses code size as heuristic to determine whether something will be inlined. I have a networking/serialization library where it wont inline functions by default because of code size. I did inlining and it improved performance 30% in benchmark. One reason to inline, is if you know values at compile time (consts are passed in) and you want to flatten the function. For instance if a function is used in two different places with different static parameters, inlining can reduce branches. This is for functions usd in an inner loop.
    – HaltingState
    Dec 11, 2011 at 11:40
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    Another example reason: I do audio DSP coding. Sometimes I can't use the debugger because the non-inlined function calls (from lots of accessor functions and stuff) become so expensive the code can't service the buffer fast enough.
    – DCBillen
    Sep 25, 2014 at 12:57
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    Just as a reminder ... you need to specify both inline and __attribute__((always_inline)). I just tested this on Android NDK r10d with GCC. Perhaps not a standard environment but from what I've read this requirement is the same for all platforms.
    – rwong
    Apr 10, 2015 at 6:28
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    Another example (not optimization-based): When writing a function for a microcontroller to write to its internal flash at runtime, I need to copy the routine that does the actual writing out of flash and into ram before starting the write, as simultaneous reads and writes are not allowed. If this routine calls any non-inlined functions, then I would have to copy all dependencies into ram and dynamically adjust any jump addresses, which is way more complex than the force-inline solution.
    – Ponkadoodle
    Aug 3, 2015 at 17:40
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    Force inlining provides something akin at least portion of non-type template parameters in C++: when you know you want a new function compiled for each value of a parameter. You could try to use macros to get this ability, but force-inlining is often cleaner (although less portable).
    – BeeOnRope
    Mar 11, 2017 at 18:06

8 Answers 8

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Yes.

always_inline

Generally, functions are not inlined unless optimization is specified. For functions declared inline, this attribute inlines the function even if no optimization level was specified.

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41

It should. I'm a big fan of manual inlining. Sure, used in excess it's a bad thing. But often times when optimizing code, there will be one or two functions that simply have to be inlined or performance goes down the toilet. And frankly, in my experience C compilers typically do not inline those functions when using the inline keyword.

I'm perfectly willing to let the compiler inline most of my code for me. It's only those half dozen or so absolutely vital cases that I really care about. People say "compilers do a good job at this." I'd like to see proof of that, please. So far, I've never seen a C compiler inline a vital piece of code I told it to without using some sort of forced inline syntax (__forceinline on msvc __attribute__((always_inline)) on gcc).

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    I appreciate the msvc vs. gcc comparison!
    – Zak
    Dec 11, 2014 at 1:35
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    I agree but I force inlining way more than it. I use __forceinline on thousands of functions and have saved 20% of a 600 server farm. Assuming that the compiler will make the best decision WRT inlining is simply not true. The compiler is guessing. Educated guess or not, it is still a guess. The compiler doesn't know that you wrote the function to optimize out expressions formed with constant parameters. Etc etc etc.
    – johnnycrash
    Mar 14, 2016 at 17:15
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    with gcc you also need to specify inline explicitly: __attribute__((always_inline)) inline YourFunc(... else you will get warning: always_inline function might not be inlinable [-Wattributes]
    – slashmais
    Aug 15, 2018 at 3:48
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Yes, it will. That doesn't necessarily mean it's a good idea.

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  • Inlining a function won't always improve performance (e.g. cache issues).
    – Basile Starynkevitch
    Jul 22, 2012 at 14:00
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    Example of a very good reason I use it sometimes: When developing audio DSP applications sometimes the debug build can't process fast enough to keep up with the sample rate. By forcing things like accessor functions to inline I am able to test and debug.
    – DCBillen
    Dec 20, 2014 at 16:17
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    Correction: it doesn't necessarily mean it's a good idea. Sometimes it is.
    – No-Bugs Hare
    Sep 17, 2017 at 12:42
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According to the gcc optimize options documentation, you can tune inlining with parameters:

-finline-limit=n
By default, GCC limits the size of functions that can be inlined. This flag 
allows coarse control of this limit. n is the size of functions that can be 
inlined in number of  pseudo instructions.

Inlining is actually controlled by a number of parameters, which may be specified
individually by using --param name=value. The -finline-limit=n option sets some 
of these parameters as follows:

    max-inline-insns-single is set to n/2. 
    max-inline-insns-auto is set to n/2.

I suggest reading more in details about all the parameters for inlining, and setting them appropriately.

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I want to add here that I have a SIMD math library where inlining is absolutely critical for performance. Initially I set all functions to inline but the disassembly showed that even for the most trivial operators it would decide to actually call the function. Both MSVC and Clang showed this, with all optimization flags on.

I did as suggested in other posts in SO and added __forceinline for MSVC and __attribute__((always_inline)) for all other compilers. There was a consistent 25-35% improvement in performance in various tight loops with operations ranging from basic multiplies to sines.

I didn't figure out why they had such a hard time inlining (perhaps templated code is harder?) but the bottom line is: there are very valid use cases for inlining manually and huge speedups to be gained.

If you're curious this is where I implemented it. https://github.com/redorav/hlslpp

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    template function code tends not to get inlined, but rather every specialization gets into a separate .text section in order to make "vague linkage" possible (see gcc.gnu.org/onlinedocs/gcc-4.8.0/gcc/Vague-Linkage.html). By forcing inlining, you basically lose the ability to explicitly specialize template functions in different compilation units.
    – Géza Török
    Nov 13, 2017 at 12:59
  • I see, thanks for the explanation @GézaTörök that explains the behavior. Most math classes are quite hard to write without templating (not to mention the perf gains), so it seems like explicitly forcing inline is often a must.
    – RedOrav
    Nov 15, 2017 at 10:15
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Yes. It will inline the function regardless of any other options set. See here.

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One can also use __always_inline. I have been using that for C++ member functions for GCC 4.8.1. But could not found a good explanation in GCC doc.

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-4

Actually the answer is "no". All it means is that the function is a candidate for inlining even with optimizations disabled.

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    and yet the top answer has a direct quote that specifically says "this attribute inlines the function". I see no reference to any "candidate" there at all. What is your source?
    – underscore_d
    Jan 1, 2016 at 11:13
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    This is true for the inline keyword, not for the always_inline attribute, see here
    – Bilow
    Nov 4, 2017 at 11:08

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