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Consider following function:

void func(const char & input){
 //do something

Apparently it makes sense for the parameter to be constant value not reference to constant regarding size of the char type, Now may a compiler optimize that to constant value so that it'll be the same as following ?

void func(const char input){
 //do something
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That makes sense, although I can't really tell for sure. –  the_drow Oct 13 '10 at 12:14
I would like to think the compiler would do this as I see no reason for the const char & to be anything other than pass by value. –  Preet Sangha Oct 13 '10 at 12:17

3 Answers 3

up vote 2 down vote accepted

Like someone stated, but was sadly downvoted (not sure why he did delete his answer), the compiler can do any and everything as long as the observable behavior is the same as if it did not do anything different.

It's self-expanatory that if your function writes into the reference, and a global variable was passed as argument to the function and the global was later printed after the function returns, or anything else fancy is done, then if the compiler would change the parameter passing convention, it's more difficult for the compiler to prove you still get the same observable behavior. If the compiler can't prove it, it can't do the desired optimization.

So whatever further question comes up, just think "it can do anything as long as I won't notice it".

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This doesn't make sense. The function can't write into a const reference, and the compiler can't assume that nobody else can, so it can't change the calling sequence. –  EJP Oct 13 '10 at 12:32
@EJP This was just an example for a scenario that makes things more difficult. But it can perfectly write if the const is casted away. This is valid if the argument passed actually refers to a non-const object. It could also take the address of the parameter and safe it somewhere, for another example where such optimizations can't usually be done. –  Johannes Schaub - litb Oct 13 '10 at 12:34
So if the function can write though the reference it isn't a safe optimization, because the rest of the program can notice. –  EJP Oct 13 '10 at 12:45
@EJB: I think litb summed it up well. If the compiler can prove the optimization will not have any affect on observed behavior then it can do the optimization. Now we can come up with all sorts of reasons that would stop it from doing the optimization and the compiler would have to be able to check all of these, If it can't guarantee that it has no affect then it can't do the optimization (which will be most of the time). But in those small corner cases it may just be able to prove it. –  Loki Astari Oct 13 '10 at 12:54
It is safe as long as the compiler can prove to itself it isn't observable. I don't find these corner cases that might exist very credible, nor the concept thatba real compiler writer would pursue such a low-returning optimization. I'm a compiler writer, and I wouldn't. –  EJP Oct 13 '10 at 13:21

No. This is not equivalent. In the first case, input can still change, e.g. if it's a reference to a variable that's modified by another thread.

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Yes but what if what you are referencing to is already constant, I believe that that is what the OP means –  the_drow Oct 13 '10 at 12:17
Or even in a single-threaded program. This function might call another function that modifies the referenced variable. Or the reference might alias a global variable, and the function itself might change it! –  Jason Orendorff Oct 13 '10 at 12:19
@the_drow there isn't a way of telling the compiler that a referenced value is immutable. If it inlines the function, then it can deduce that it will not change and can then perform the optimisation on the code generated for the inlined call, but if you only consider the function not the function call it can't. –  Pete Kirkham Oct 13 '10 at 12:24
If it may be changed by another thread, shouldn't it be volatile? –  Pedro d'Aquino Oct 13 '10 at 13:40
@the_drow: as Pete said, "const" only tells the compiler "don't let this code change the variable" - it doesn't mean that other code (e.g. another thread, an ISR, etc) can't change it. –  Dan Oct 13 '10 at 14:27

As noted, not in general. But what the compiler can do is inline the entire function call. And if the parameter supplied is a compile time constant, it can do lots of interesting optimizations.

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