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I have a wrapper function (templatized) Outer() and core functionality function as Inner().

namespace N
{
  A* Inner (void *p, int value, const int ID);

  template<typename T>
  A* Outer (T *p, const int ID)  // ID is a compile time constant
  {
    return Inner (p, p->value, ID);
  }
}

Usage:

A *px = Outer(new X(3), 12345);
A *py = Outer(new Y(4), 987);

I am managed to pass a compile-time constant as ID. So I am thinking of changing the Outer() prototype to,

template<int ID, typename T>
A* Outer (T *p)
{
  return Inner (p, p->value, ID);
}

Which will be used as,

A *pz = Outer<333>(new Z(5));

Wanted to know that, is there any code/performance level impact with the new approach ? Will there be any impact on inlining ?

Edit: ID is surely at compile time and there are several instances of Outer() appearing (that's why it is important to know about inline also).

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Why don't you try it yourself? Although at first glance I can't see a reason why the two versions you have will exhibit significant disparities in performance. –  In silico May 23 '11 at 5:41
    
@In silico, I don't know how to try it. These functions would appear at several places in the code. should I compare the binaries of the 2 compiled version ? What is the reason for down vote ? –  iammilind May 23 '11 at 5:47
    
I didn't downvote your question. One way you can test it is by writing a test program that calls the functions many times and time how long it takes. But again, I can't see a reason for any performance difference. –  In silico May 23 '11 at 7:09

4 Answers 4

up vote 1 down vote accepted

None. The function is a template and therefore must be inlined, and constant folding like this is one of the most common optimizations done when functions are inlined. This suggests that if you have a modern compiler, it will make absolutely no difference whatsoever.

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1  
+1, so better inlining means no code bloat correct ? (specifically for my case) –  iammilind May 23 '11 at 6:34
    
@iammilind: In the vast, vast, vast majority of cases, even the idea of code bloat is ridiculous- the size of a binary is extremely small in modern standards. However, when a function is inlined, it's inlined, and how many template arguments you passed to it to make that happen are irrelevant. –  Puppy May 23 '11 at 15:23

First of all, since ID is supposed to be an int, the template should be

template<int ID, typename T>
A* Outer (T *p)
...

Moving on, though, as far as ups and downs go, it sort of depends on your usage, but here are some sure facts:

Performance

There really shouldn't be any appreciable difference. Since a new function will be created for each value of ID, it should performs as if you had just declared your own separate function with a local ID constant. So the template version might be quicker because no copying of values occurs at the function call, but like I said, it probably won't be significant enough to be a deal-breaker.

Usage

The two forms are really not equivalent. Since the function definition is defined at compile-time depending on the value of ID, only compile time constants can be used (which it seems you are expecting). In the original version, a user could write

int i = 10;
Outer<Z>(new Z(5), i);

Although i is a variable, it is copied to ID as a constant value.

In the template version, they cannot write

int i = 10;
Outer<i, Z>(new Z(5));

Since the compiler generates a different function for each value of ID, it can't possibly create a function at compile-time when the value isn't know until runtime

So your original version is a lot more flexible, while your proposed change is very rigid. I think most people would want to use the function in the original way, where they aren't forced to used compile-time constants. So I would stick with the original unless for some reason you really need the ID value to be a compile-time constant.

Compiled Code

For the compiled code, your binary will be larger (assuming you use the function for at least two different values of ID). This is because a new function is created for each different value of ID which is used in the program. So if you expect many different values to be used, bloat in your binary could be potentially become an issue

Inlining

This is something I do not have a definite answer to. I am guessing that if inlining is affected, it would probably be affected by the parameter T rather than ID.

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+1 for pointing out int ID (actually it was a typo). thanks. –  iammilind May 23 '11 at 5:57
    
@iammilind Also notice the difference in usage. You wouldn't just call it with func<int>(new class) but you'll have to specify the class also func<int, class>(new class). So it's even more rigid then you might want. –  RedX May 23 '11 at 6:40
    
@RedX, no need to call as you mentioned. func<int>(new Class) is sufficient. –  iammilind May 23 '11 at 6:47

Assuming you do it correctly (the code has the same functionality), then the only penalty introduced is the compilation time increase, because compiling templates takes longer then compiling normal function.

You can say "I have super fast computer, and compilation takes 1/2 second", but for big projects it matters a lot.

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I very much doubt that there will be a difference in compile speed. Templates drive up compile times for two reasons: they increase the amount of code you need to put in the header (significantly), and the type deduction can be expensive, particularly in more complicated cases. Neither is an issue here. –  James Kanze May 23 '11 at 8:50
    
@James If he wants to change normal functions into template functions, then he has to implement them in headers. Type deduction for a template function is of the same complexity as the type deduction for template class, no? –  BЈовић May 23 '11 at 9:55
    
@VJo He wasn't changing a normal function into a template function. He was adding an additional parameter to an existing template. There is no type deduction for class templates, only for function templates. But in his case, the intent was to always specify the type explictly, so no type deduction would be needed. (I'm generally in favor of limiting the use of templates, because of the coupling, but in this case, given that there already was a template, the coupling is there, and it doesn't matter.) –  James Kanze May 23 '11 at 11:01
    
@James I know I am most likely asking a stupid question : are you sure? Look at the title of the question : "Changing a normal function to template will make any positive/negative difference ?". With such title I expected him to really change a normal function into a template function. –  BЈовић May 23 '11 at 13:25
    
@VJo Interestingly, I didn't look at the title. The change he proposed in the question itself was to add a template argument to an existing template. –  James Kanze May 23 '11 at 14:16

It will depend on your compiler and how the functions are used. In practice, if you've got optimization turned up, the only difference I think you'll see is in the calling syntax. But if you have a performance problem, profile and see where it's coming from.

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