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I have heard from many people that usage of templates make the code slow. Is it really true. I'm currently building a library. There are places where if templates are not created, it would result in code management problem. As of now I can think two solutions to this problem:

  • use #defines

  • Use templates and define all possible types in the header file/library itself but do not allow end user to make template instances.

e.g. typedef Graph<int> GraphI32; etc.

Is there anyway, to restrict user from creating various template instances on their own.

Help on above queries would be highly regarded.

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5 Answers 5

up vote 20 down vote accepted

As others have already noted, templates don't have a direct run-time penalty -- i.e. all their tricks happen at compile time. Indirectly, however, they can slow things down under a few circumstances. In particular, each instantiation of a template (normally) produces code that's separate and unique from other instantiations. Under a few circumstances, this can lead to slow execution, by simply producing enough object code that it no longer fits in the cache well.

Edit: To clarify the situation with respect to code size: yes, most compilers can and will fold together the code for identical instantiations -- but that's normally the case when the intantiations are truly identical. The compiler will not insert code to do even the most trivial conversions to get a use to fit with an existing instantiation. For example, a normal function call can/will convert T * to T const * so calls that use either const or non-const arguments will use the same code (unless you've chosen to overload the function on constness, in which case you've probably done so specifically to provide different behavior for the two cases). With a template, that won't happen -- instantiations over T * and T const * will result in two entirely separate pieces of code being generated. It's possible the compiler (or linker) may be able to merge the two after the fact, but not entirely certain (e.g., I've certainly used compilers that didn't).

Templates have positive effects on speed far more often than negative.

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thanks mate. I just wanted to know corner cases. –  user293398 Mar 14 '10 at 15:00
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Cache exaustion has nothing to do with templates. If the compiler had to generate a lot of code then you would have had to also generate the code manualy (without templates) the same situation exists. So this is a total red herring. –  Loki Astari Mar 14 '10 at 16:18
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"In particular, each instantiation of a template (normally) produces code that's separate and unique from other instantiations." - some evidence for this, please. Most implementations create multiple instances and then discard all but one at link-time, or do you think that every use of vector <int>, for example, generates duplicate code in the executable? If that were the case, no-one would ever use templates at all. –  anon Mar 14 '10 at 16:34
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In practice, every modern compiler is able to fold together common code across different template instantiations - and indeed, fold together common generated code in general, even for seemingly unrelated sections of code. It's a very basic optimization. The compiler are linker are smarter than you. –  Terry Mahaffey Mar 14 '10 at 17:14
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@Terry, Steve, Martin: The compiler can't perform the optimization because every instantiated function has to have a unique address so that function pointer comparisons will work. vector<int>::push_back and vector<unsigned int>::push_back will always have distinct addresses, so they never share the same binary code. This is the same reason non-inline versions of inline functions are always generated. A clever whole program optimizing compiler could track if the address is never taken of templated functions and then allow them to merge, but I don't know if any compilers actually do that. –  Joseph Garvin Mar 15 '10 at 15:36

Since template instantiation happens at compile time, there is no run-time cost to using templates (as a matter of fact templates are sometimes used to perform certain computations at compile-time to make the program run faster). Heavy use of templates can however lead to long compile times.

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Mostly right, but increased code size due to multiple instantiations of a template function can increase instruction cache misses, and slow down your program. There are cases where a non-template function could really service multiple types (e.g. int, short, and long) and do so with less executable code. –  John Zwinck Mar 14 '10 at 14:08
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@John: The compiler only instanciates actual classes that are used. This if non templated code were used the same situation would exist as the dev would have to generate all the classes manually. So this though techincally true is has nothing to do with templates it would be a design issue and occures weather templates are used or not. –  Loki Astari Mar 14 '10 at 16:21
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@Martin York: for example, I want to sort an array of int, an array of float, and an array of double. I could call three different instantiations of std::sort, or I could call qsort three times. Is it conceivable that the latter would produce smaller code? You can of course argue that programmers might proliferate multiple near-identical functions without the use of templates, but in practice they usually don't, if only because the typing would be horrendous. –  Steve Jessop Mar 14 '10 at 17:52
    
Of course in that example, the smaller non-template code would probably be slower, because of the function pointer. But there seem to be people saying that templates cannot conceivably lead to larger object code. I don't think that corresponds with reality unless you compare "use of templates" with "a lot of copy-and-paste", when IMO you should be comparing "use of templates" with "a plausible non-template-using alternative design". Templates do in fact change how you design your code - this was a deliberate goal when they were invented, so I don't think it's "nothing to do with" them. –  Steve Jessop Mar 14 '10 at 17:57
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@steve: Here you are making a delibrate trade off. You are delibrately trading speed for size (as qsort is slower because of the required inbedded function call to do the comparison (due to its generic nature)). So in this situation you have actively decided to make the trade. If on the other hand you wanted an optimal way to do the sort without using templates you would need to write three versions of sort, how is this different from using a single templated version? –  Loki Astari Mar 14 '10 at 18:11

No they don't. When ever you find that you have "heard" something, and cannot name the source, you can almost certainly guarantee that what you have heard is wrong. In fact, templates tend to speed code up.

Rather than depending on hearing things, it's a good idea to read an authoritative book on the subject - I recommend C++ Templates - The Complete Guide.

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Template make the Compilation slow. But most of the time it makes the program faster.

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They do make object code bigger, because C++ generates code for every type you use. But I don't believe this will slow execution speed. I have no numbers to suggest that it would.

It certainly does improve your lot in life during code development, reading and maintenance. I would not let coding urban myths discourage you from using a language feature that's clearly useful.

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Bigger object code can lead to decreased i-cache efficiency. –  John Zwinck Mar 14 '10 at 14:09
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Enough to eschew using them? I say no. –  duffymo Mar 14 '10 at 14:43

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