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According to the wikipedia C++ article

C++ is designed to give the programmer choice, even if this makes it possible for the programmer to choose incorrectly.

If it is designed this way why there is no standard way to force the compiler to inline something even if I might be wrong?

Or I can ask why is inline keyword is just a hint?

I think I have no choice here.

In the OOP world we call methods on the objects and directly accessing members should be avoided. If we can't force the accessors to be inlined, then we are unable to write high performance but still maintainable applications.

(I know many compilers implement their own way to force inlining but it's ugly. Using macros to make inline accessors on a class are ugly too.)

Does the compiler always do it better than the programmer?

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Compilers do some crazy optimization stuff, and inlining trivial accessors are the basics of the basics. –  Xeo May 24 '11 at 9:37
What reason do you have to believe you could ever choose better than the compiler? It knows a lot more about CPU instruction ordering, pipeline stalls, etc than you probably do. –  SoapBox May 24 '11 at 9:37
With regards to your last question, almost always... –  Nim May 24 '11 at 9:38
There is no standard way, because there is no way to force inlining. (Why is there no standard way to make pigs fly?). There situations when a compiler could not be able to inline a function, no matter how many times you force it to. –  sehe May 24 '11 at 9:42
Was inline really intended as only a hint and not an order originally? This is the language with the register keyword... it was originally designed for much weaker optimizing compilers than we have now. –  Baffe Boyois May 24 '11 at 10:00

5 Answers 5

How would a compiler inline a recursive function (especially if the compiler does not support Tail-call optimization and even if it does, the function is not Tail-call optimize-able).

This is just one reason where compiler should decide whether inline is practical or not. There can be others as well which I cant think of right now.

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and especially if the function cannot be tail-called optimized :) –  Matthieu M. May 24 '11 at 9:53
Hmmm interesting point, I haven't thought about that yet. –  Calmarius May 24 '11 at 9:53
@Matthieu M: How does it look now :) –  Aamir May 24 '11 at 9:56
as good as before :P I had actually upvoted your answer ^^ –  Matthieu M. May 24 '11 at 10:58
Another situation is function pointers. Though the compiler could generate an out-of-line copy for that and inline it elsewhere. –  IronMensan May 24 '11 at 11:54

Does the compiler always do it better than the programmer?

No, not always... but the programmer is far more error prone, and less likely to maintain the optimal tuning over a span of years. The bottom line is that inlining only helps performance if the function is really small (for at least one common/important code path) but then it can help by about an order of magnitude, depending on many things of course. It's often impractical for the programmer to assess let alone keep a careful eye on how trivial a function is, and the thresholds can vary with compiler implementation choices, command line options, CPU model etc.. There are so many things that could suddenly bloat a function - any non-builtin type can trigger all sorts of different behaviours (esp in templates), use of an operator (even new) can be overloaded, the verbosity of calling conventions and exception-handling steps aren't generally obvious to the programmer.

The chances are that if the compiler isn't inlining something that's small enough for you to expect a useful performance improvement if it was inlined, then the compiler's aware of some implementation issue you're not that would actually make it worse. In those gray cases where the compiler might go either way and you're just over some threshold the performance difference isn't likely to be significant anyway.

Further, some programmers (myself included) can be lazy and deliberately abuse inline as a convenient way to put implementation in a header file, getting around the ODR, even though they know those functions are large and that it would be disastrous if the compiler (were required to) actually inline them. This doesn't preclude a forced-inline keyword/notation though... it just explains why it's hard to change the expectations around the current inline keyword.

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I don't think that's an abuse of the keyword. –  GManNickG May 24 '11 at 10:44
@GMan: or perhaps it simply means that the keyword is overloaded... –  Matthieu M. May 24 '11 at 11:00
@GMan, @Matthieu: given inline was definitely introduced to convey a hope or expection of inlining, then using it purely to avoid ODR sure seems like an abuse to me - doesn't mean I haven't done it now and then too... :-). It may even be that such creeping abuses are the main reason for the now relaxed "if the compiler feels like it" impact of the keyword...? –  Tony D May 24 '11 at 16:42
What? Wasn't inline added specifically because of ODR? –  Thomas Eding Feb 25 '12 at 2:16
@TonyD: I thought it was added to declare that the code is inline in the header. –  Mooing Duck Mar 26 '14 at 20:42

Or I can ask why is inline keyword is just a hint?

Because you "might" know better than the compiler.

Most of the time, for functions not marked inline (and correctly declared/defined), the compiler, depending on it's configuration and implementation, will itself evaluate if the function can be inlined or not.

For example, most compilers will automatically inline member functions that are fully defined in the header, if the code is'isn't long and/or too complex. That's because as the function is available in the header, why not inline it as much as we can? However this don't happen, for example, in Debug mode for Visual Studio : in Debug the debug informations still need to map the binary code of the functions, so it avoid inlining, but will still inline functions marked inline, because the user required it. That's useful if you want to mark functions yuo don't need to have debug-time informations (like simple getters) while getting better performance at debug-time. In Release mode (by default) the compiler will agresively inline everything it can, making harder to debug some part of the code even if you activate debugging informations.

So, the general idea is that if you code in a way that helps the compiler inlining, it will inline as much as it can. If you write your code in ways that is hard or impossible to inline, it will avoid. If you mark something inline, you just tell the compiler that if it find it hard but not impossible to inline, it should inline it.

As inlining depends on both contexts of the caller and the callee, there is no "rule". What's often advised is to simply ignore explicitly mark function inline but in two cases :

  1. if you need to put a function definition in a header, it just have to be inlined; often the case for template (member or not) functions, and other utility functions that are just shortcuts;
  2. if you want a specific compiler to behave in specific way at compile time, like marking some member functions inline to be inlined even in Debug configuration on Visual Studio compilers, for example.

Does the compiler always do it better than the programmer?

No, that's why sometimes using the inline keyword can help. The programmer can have sometimes a better general view of what's necessary than the compiler. For example, if the programmer wants it's binary to be the smallest possible, depending on code, inlining can be harmful. In speed performance required application, inlining aggressively can help very much. How would the compiler know what's required? It have to be configured and be allowed to know in a fine-grain way what is really wanted to be inline.

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Mistaken assumption.

There is a way. It's spelled #define. And for many early C projects, that was good enough. inline was sufficiently different - hint, better semantics - that it could be added besides macros. But once you had both, there was little room left for a third option in between, one with the nicer semantics but non-optional.

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If you really need to force the inline of a function (why?), you can do it: copy the code and paste it, or use a macro.

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