__attribute__((always_inline)) force a function to be inlined by gcc?
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).
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.
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
Yes. It will inline the function regardless of any other options set. See here.