20

In my experience, there's lot of code that explicitly uses inline functions, which comes at a tradeoff:

  1. The code becomes less succinct and somewhat less maintainable.
  2. Sometimes, inlining can greatly increase run-time performance.
  3. Inlining is decided at a fixed point in time, maybe without a terribly good foreknowledge of its uses, or without considering all (future) surrounding circumstances.

The question is: does link-time optimization (e.g., in GCC) render manual inlining, e.g., declaring in C99 a function "inline" and providing an implementation, obsolete? Is it true that we don't need to consider inlining for most functions ourselves? What about functions that do always benefit from inlining, e.g., deg_to_rad(x)?

Clarification: I am not thinking about functions that are in the same translation-unit anyway, but about functions that should logically reside in different translation-units.

Update: I have often seen an opposition against "inline", and it was suggested obsolete. Personally, however, I do see explicitly inlined functions often: as functions defined in a class body.

21
  • 4
    Note that there's no such thing as "functions that always benefit from inlining". If your deg_to_rad is called many times in many different places in the code, it will greatly inflate the code size which can lead to caching/paging issues. Commented Aug 12, 2011 at 21:35
  • 3
    Declaring a function inline is pretty much a no-op. A good compiler will ignore the keyword for inlining decisions and make its own choice about whether to inline. Commented Aug 12, 2011 at 21:40
  • 19
    @Oli Charlesworth: You are assuming that the instruction count of the call is smaller than the instruction count of the function. inlining int add(int x,int y) {return x+y;} will always be beneficial as not only the cost of the call but the instruction count to make the call is higher than the cost of the function body. I think deg_rad() also falls into this category as it is very simple. Commented Aug 12, 2011 at 22:23
  • 3
    I have often seen what Crashworks has seen. Between a lack of runtime knowledge and perfect CPU architecture knowledge it is impossible for the compiler to make consistently optimal inlining decisions. It's difficult for Humans too, but strictly speaking, not impossible, especially when focusing on a small piece of critical code.
    – Crowley9
    Commented Aug 13, 2011 at 4:02
  • 4
    @Martin: Are you saying that compilers can always inline, when they want to, or that they always make the right decision? LTO certainly allows the former these days, but the latter is not something any compiler technology can claim.
    – Crowley9
    Commented Aug 13, 2011 at 18:37

6 Answers 6

14

Even with LTO, a compiler still has to use heuristics to determine whether or not to inline a function for every call (note it makes the decision not per function, but per call). The heuristic takes into account factors like - is it in a loop, is the loop unrolled, how big the function is, how frequently it is called globally, etc. The compiler will certainly never be able to accurately determine how frequently code is called, and whether or not the code expansion is likely to blow out the instruction/trace/loop/microcode caches of a particular CPU at compile time.

Profile Guided Optimization is supposed to be a step towards addressing this, but if you've ever tried it, you are likely to have noticed that you can get a swing in performance in the order of 0-2%, and it can be in either direction! :-) It's still a work in progress.

If performance is your ultimate goal, and you really know what you are doing, and really do a thorough analysis of your code, what one really needs is a way to tell the compiler to inline or not inline on a per-call basis, not a per-function hint. In practice I have managed this by using compiler specific "force_no_inline" type hints for cases I don't want inlining, and a separate "force_inline" copy (or macro in the rare case this fails) of the function for when I want it inlined. If anyone knows how to do this in a cleaner way with compiler specific hints (for any C/C++ compilers), please let me know.

To specifically address your points:

1.The code becomes less succinct and somewhat less maintainable.

Generally, no - it's just a keyword hint that controls how it is inlined. However if you jump through hoops like I described in the last paragraph, then yes.

2.Sometimes, inlining can greatly increase run-time performance.

When leaving the compiler to its own devices - yes, it certainly can, but mostly doesn't. The compiler has good heuristics that make good although not always optimal inlining decisions. Specificially for the keyword, compilers may totally ignore the keyword, or use to keyword as a weak hint - in general they do seem adverse to inlining code that red flags their heuristics (like inlining a 16k function into a loop unrolled 16x).

3.Inlining is decided at a fixed point in time, maybe without a terribly good foreknowledge of its uses, or without considering all (future) surrounding circumstances.

Yes, it uses static analysis. Dynamic analysis can come from your insight and you manually controlling inlining on a per-call basis, or theoretically from PGO (which still sucks).

4
  • Since you have an elaborate inline-system in place, how do you check if the compiler did inline a particular function call?
    – ccom
    Commented Aug 13, 2011 at 10:02
  • I would also be very interested in how to give the compiler the hint to inline a single function call.
    – ccom
    Commented Aug 13, 2011 at 10:03
  • 1
    Really oldschool: I look at the code generated by using objdump for gcc or .asm output for msvc to see what was actually generated. I also have some scripts the pipe the objdum -d output through grep "call" and wc, in order to get a total call count. Assuming the function you are trying to inline (or not inline) has less than or more than 1 call count you can get quick feedback on whether or not your code change made a difference.
    – Crowley9
    Commented Aug 13, 2011 at 18:43
  • 1
    Cool. I wonder if can be done with gdb, or another debugger/profiler.
    – ccom
    Commented Aug 14, 2011 at 15:07
10

GCC 9 Binutils 2.33 experiment to show that LTO can inline

For those that are curious if ld inlines across object files or not, here is a quick experiment that confirms that it can:

main.c

int notmain(void);

int main(void) {
    return notmain();
}

notmain.c

int notmain(void) {
    return 42;
}

Compile with LTO and disassemble:

gcc -O3 -flto -ggdb3 -std=c99 -Wall -Wextra -pedantic -c -o main.o main.c
gcc -O3 -flto -ggdb3 -std=c99 -Wall -Wextra -pedantic -c -o notmain.o notmain.c
gcc -O3 -flto -ggdb3 -std=c99 -Wall -Wextra -pedantic -o main.out notmain.o main.o
gdb -batch -ex "disassemble/rs main" main.out

Disassembly output:

   0x0000000000001040 <+0>:     b8 2a 00 00 00  mov    $0x2a,%eax
   0x0000000000001045 <+5>:     c3      retq 

so we see that there is no callq or other jumps, which means that the call was inlined across the two object files.

Without -flto however we see:

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

so how there is a JMPQ, which means that the call was not inlined.

Note that the compiler chose JMPQ which does not make any stack changes as would be done by a more naive CALLQ as an optimization, I think this is a trivial minimal case of a tail call optimization.

So yes, if you are using -flto, you don't need to worry about putting definitions in headers so they can be inlined.

The main downside of having definitions in headers is that they may slow down compilation. For C++ templates, you may also be interested in explicit template instantiation: Explicit template instantiation - when is it used?

Tested in Ubuntu 19.10 amd64.

5

The question is: does link-time optimization (e.g., in GCC) render manual inlining, e.g., declaring in C99 a function "inline" and providing an implementation, obsolete?

This article would seem to answer "Yes:"

Think for a minute: what turns a function into a good candidate for inlining? Apart from the size factor, the optimizer needs to know how often this function is called, where it is called from, how many other functions in the program are viable candidates for inlining and -- believe it or not -- whether the function is ever called. Optimizing (i.e. inlining) a function that isn't called even once is a waste of time and resources. But how can an optimizer know that a function is never called? Well, it cannot. Unless it has scanned the entire program. This is where [link-time optimization] becomes crucial.

6
  • Of course, LTO is necessary for making "inline" obsolete, the question is if it is obsolete in real-life.
    – ccom
    Commented Aug 13, 2011 at 9:50
  • Unfortunately, the article is mostly speculative, and was written when LTO wasn't as common-place as it is today.
    – ccom
    Commented Aug 13, 2011 at 9:57
  • "The question is: does link-time optimization render manual inlining obsolete." There is no "real life" in the question. Manual inlining is effectively a compiler hint, anyway. LTO allows compiler and linker to make a much more informed choice about what to inline.
    – Gnawme
    Commented Aug 13, 2011 at 19:50
  • Also, the article explains how LTO (aka WPO) operates in "Visual C++ 7.0 and later versions, including the most recent Visual C++ 2005 beta 2." How is that speculative? If it's in a beta, it has been implemented.
    – Gnawme
    Commented Aug 13, 2011 at 19:52
  • I guess, I should put "real life" in the question. However, since a perfect compiler and optimizer renders the whole discussion and question void, it's already implicit.
    – ccom
    Commented Aug 14, 2011 at 15:15
1

If link time optimization were as fast as compile time optimization, then it would obviate the need for compiler hints. Unfortunately, it is generally not faster than compile time optimization, so it's a tradeoff between overall build speed and the overall quality of optimizations for that build.

Also, you still need to use inline when defining functions in headers. Otherwise, you will get linker errors for multiple definitions of those functions if they are used in multiple translation units.

2
  • That's a valid comment. But is "inline" really obsolete when LTO is assumed to be enabled?
    – ccom
    Commented Aug 13, 2011 at 9:51
  • "Otherwise, you will get linker errors for multiple definitions of those functions if they are used in multiple translation units" -- the static keyword is what is needed here.
    – Jason S
    Commented Sep 7, 2016 at 16:15
0
  1. I don't think the inline keyword affects maintainability, and only barely the succinctness. (opinion)
  2. Sometimes inline can decrease run-time performance : http://www.parashift.com/c++-faq-lite/inline-functions.html#faq-9.3
  3. The compilers are quite smart about inlining, I've heard that Visual Studio ignores them almost completely and decides inlining itself.

does link-time optimization render manual inlining, obsolete? Not at all, the optimizer that makes the inline keyword nigh-obsolete kicks in way before link-time.

8
  • The optimizer that could make inline obsolete cannot kick in before link-time, b/c the definition may not be (and would in most interesting cases) in the same translation unit.
    – ccom
    Commented Aug 12, 2011 at 22:05
  • Regarding 2: That's why I put a "sometimes" in it and have "3".
    – ccom
    Commented Aug 12, 2011 at 22:08
  • 1
    @Billy: inline doesn't give a function internal linkage, static does. That said, the effect is often the same, but implementation-wise it's not.
    – GManNickG
    Commented Aug 12, 2011 at 22:24
  • 4
    @Billy: stackoverflow.com/questions/4957582/… 7.1.2/3 footnote says The inline keyword has no effect on the linkage of a function. Commented Aug 12, 2011 at 22:45
  • 2
    @Billy: No, that's not what internal linkage is.
    – GManNickG
    Commented Aug 12, 2011 at 22:51
-2

Item 33 - Scott Myers - 2nd Ed - Effective C++ springs to mind.

You must bear in mind the keyword static wrt inline! Now there is a hornets nest!

2
  • 8
    Would you care to share what that Item says, for those of us without that book? Commented Aug 12, 2011 at 21:58
  • @Oli: Particularly when that item # is from an obsolete edition... :) Commented Aug 12, 2011 at 22:21

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