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I have very little (read no) compiler expertise, and was wondering if the following code snippet would automatically be optimized by a relatively recent (VS2008+/GCC 4.3+) compiler:

Object objectPtr = getPtrSomehow();

if (objectPtr->getValue() == something1)       // call 1
    dosomething1;
else if (objectPtr->getValue() == something2)  // call N (there are a few more)
    dosomething2;

return;

where getValue() simply returns a member variable that is one of an enum. (The call has no observable effect)

My coding style would be to make one call before the "switch" and save the value to compare it against each of the somethingX's, but I was wondering if this was a moot point with today's compilers.

I was also unsure of what to google to find the answer to this myself.

Thank you,

AK

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4 Answers 4

up vote 3 down vote accepted

Unless the compiler can examine the definition of getValue() while it compiles that piece of code, it can't elide the second call because it doesn't know whether that call has observable effects and whether it returns the same value the second time around.

Even if it sees the definition, it probably (this is my wild guess from having a few peeks at some compilers' internals) won't go out of its way to check that. The only chance you stand is the implementation being trivial and inlined twice, and then caught by common subexpression elimination. EDIT: Since the definition is in the header, and quite small, it's likely that this (inlining and subsequent CSE) will ocurr. Still, if you want to be sure, check the output of g++ -O2 -S or your compiler's equivalent.

So in summary, you shouldn't expect the optimization to occur. Then again, getValue is probably quite cheap, so it's unlikely to be worth the manual optimizations. What's an extra line compared to a couple of machine cycles? Not much, in most cases. If you're writing code where it is much, you shouldn't be asking but just checking it (disassembly/profiling).

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Right, I will of course run timing tests on the result, but was unsure if this was even an area to worry about - there are millions of these calls made, and we are right now looking to improve cycle count anywhere possible in this sub-project. For future reference, is "elide" the terminology for this type of optimization? –  im so confused Dec 6 '12 at 19:46
    
@AK4749 "Elide" is one term used in this area, yes (cf. copy elision). As for performance: Are you sure you have to go micro-optimizing? Architectural changes (cf. data-oriented programming), and algorithmic improvements (stupid example: don't call it a million times) may yield greater improvements. A static call is a couple of cycles, that's not normally something you need to optimize. –  delnan Dec 6 '12 at 19:49
    
Oh no not at all, which is why I asked SO before starting a large build to profile that one segment (which is tough to get called). The new library I will be integrating will, however, require modifications to nearby code, and I was wondering if a sneaky "integration-required change" would be valuable - looks like it is but only from a stylistic/maintainability standpoint –  im so confused Dec 6 '12 at 19:53
    
Unfortunately, we have no control over how it is called, that is the result of maddeningly inept clients ;) –  im so confused Dec 6 '12 at 19:54

It's not moot, especially if the method is mutable.

If getValue is not declared const, the call can't be optimized away, as subsequent calls could return different values.

If it is declared const, it's easier, but also not trivial for the compiler to optimize the call. It would need access to the implementation, to make sure the call doesn't have side effects. There's also the chance that it returns a different value even if marked const (modifies and returns a global).

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Thank you, it is indeed declared const, but I'll anyway attempt to put in a low priority modification request because you say it is not trivial. - I'll come back to mark this accepted later as per SO guidelines –  im so confused Dec 6 '12 at 19:38
2  
constness is practically irrelevant here. A const method of an object without mutable members might still launch a nuke. –  delnan Dec 6 '12 at 19:38
1  
@AK4749 - it is likely that the code will be optimized to zero function calls. –  Robᵩ Dec 6 '12 at 19:43
2  
@AK4749 if it's like that, it probably will be optimized. But i'd still call it only once and have a switch there. –  Luchian Grigore Dec 6 '12 at 19:44
4  
Whether the function is const or not is irrelevant. The question is whether the function is a true function, which doesn't modify state, period. A const function can modify state, and a non-const isn't required to modify state. –  James Kanze Dec 6 '12 at 20:03

As other answers have noted, the compiler generally cannot eliminate the second call since there may be side effects.

However, some compilers have a way of telling the compiler that the function has no side effects and that this optimization is allowed. In GCC, a function may be declared pure. For example:

int square(int) __attribute__((pure));

says that the function has “no effects except to return a value, and [the] return value depends only on the parameters and/or global variables.”

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Neat. But I have to wonder, is applying this save if the result depends on some mutable this->member? It appears o.pureFunc(); o.member = ...; o.pureFunc(); would call pureFunc with the same this pointer every time, which seems sufficient to (wrongly) deduce "both calls return the same result". –  delnan Dec 6 '12 at 19:56
    
Interesting, I had looked into these "hints" for another purpose (deprecating functions), and was minorly disappointed to see that they are compiler-specific. Given that we only build on 2 platforms however, not a big deal. –  im so confused Dec 6 '12 at 19:57
    
@delnan excellent point. I always assumed that compilers cannot take threading into account for optimization (how can they really?). But then again, that leaves quite a lot of simple functions that would require an explicit non-mutable member declarations to be optimized, would it not? Compiler theory makes my head hurt haha those guys do great work –  im so confused Dec 6 '12 at 19:59
1  
@delnan: It might be safe depending on how the code uses the mutable members. If your program does not need the changes to the mutable members that a second call would cause, then fine. However, keep in mind that “If you lie to the compiler, it will get its revenge.” —Henry Spencer –  Eric Postpischil Dec 6 '12 at 20:01
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@AK4749 Well, I got along fine without a book (on compiler construction specifically). I found useful (in ascending order of accessibility): The llvm-dev and clang-cfe mailing lists (quite technical and LLVM-specific, but occasionally delivers deep insights into what compilers can/can't do and what they're only just learning to do), numerous Stackoverflow questions (not all tagged compilers),and AltDevBlogADay (between much design and marketing and high-level algorithms, there are quite a few writers who really know their low-level stuff). –  delnan Dec 6 '12 at 20:08

You wrote:

My coding style would be to make one call before the "switch" and save the value to compare it against each of the somethingX's, but I was wondering if this was a moot point with today's compilers.

Yes, it's a moot point. What the compiler does is it's business. Your hands will be full trying to write maintainable code without trying to micromanage a piece of software that is far better at its job than any of us will ever hope to be.

Focus on writing maintainable code and trust the compiler to carry out its task. If your later find your code is too slow, then you can worry about optimizing.

Remember the proverb:

Premature optimization is the root of all evil.

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That "proverb" is actually part of a very well-written and balanced reflection on optimization that says far more (and in a far better phrasing) than 99% of the texts in which this excerpt is cited. Knuth, Structured Programming With GOTO Statements. –  delnan Dec 6 '12 at 19:45
    
I quite agree, I would never start writing code like this, but stumbled across it while coding a related sub library and wondered if this idiom (littered across the old code) was worth pursuing. Excellent advice, nonetheless. –  im so confused Dec 6 '12 at 19:48
    
@delnan: Knuth is the man! I wrote "proverb" because it has the nice, folksy wisdom of a proverb. I definitely did not mean to imply that there were no solid reasons behind it! –  RonaldBarzell Dec 6 '12 at 19:53
    
Then you're a fortunate exception in my experience. Rock on :) I'd still like to see a larger excerpt (in particular the 97% bit, which is very useful to prevent overly zealous of the quote). –  delnan Dec 6 '12 at 19:58

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