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Does anyone use template metaprogramming in real life?

I'll try and keep this in the standard Q&A format:

Why is real template-metaprogramming useful in c++? More specifically - I know you can take straight up templates and pass things like an integer as a parameter, allowing you to solve something like a factorial at compile time rather than run-time (assuming your template compilation recursion depth is big enough for the factorial).

This is all dependent on you having the right values available at compilation time though - if you can't pass the number 5 as a template parameter, it cant resolve 5! at compile time. Most applications depend on databases or file reading, getting data from a network, etc... so you wouldn't have the values available at compile time.

Can someone please provide a short description of how this programming style could be useful/used in industry or a good link that would explain this to me with some real examples. I Just need some real-world examples rather than academic ones without reason.

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marked as duplicate by Armen Tsirunyan, Etienne de Martel, Luc Touraille, jk., Emile Cormier Aug 30 '11 at 17:26

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I'm not sure precisely what you're asking. It's true that in cases where you don't know certain parameters at compile-time, you can't use compile-time metaprogramming. That doesn't mean that metaprogramming isn't useful, it just means it won't help with that particular problem. If you want to see metaprogramming in action, take a look at practically any Boost library. –  Oli Charlesworth Aug 30 '11 at 14:43
    
Have you seen boost.org libraries? They use template tricks a lot and are damn useful. –  Михаил Страшун Aug 30 '11 at 14:44
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Have you read C++ Template Metaprogramming? You wouln't have half of boost if it weren't for metaprogramming techniques. –  Armen Tsirunyan Aug 30 '11 at 14:44
    
Boost.Variant and Boost.MetaStateMachine are some of the Boost libraries where the use of template metaprogramming is more apparent to the user. –  Emile Cormier Aug 30 '11 at 15:03
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Useful example: See: 'Enforcing Code Features' Where SM shows an idea of how to expand the languages using template meta programming. (I use the term 'expand the language' loosely). –  Loki Astari Aug 30 '11 at 15:39

3 Answers 3

up vote 7 down vote accepted

Template meta-programming merely allows for "algorithm expansion" (and evaluation) at compile-time, and "literal-expansion" (and evaluation) at compile-time.

It was "discovered", not "designed". In other words, it was not intentionally "added" as part of the language. Rather, when templates and partial-specialization were implemented as a standard, it exposed "curious behavior" at compile-time that turned out to be useful as the basis of meta-programming. For example, it exposed Sequence, Selection, and Iteration, which is everything needed to do algorithmic definition.

The practical: It is a better way to do conditional macro-inline-expansion. It is a better way to define (type-safe) literals. For example, rather than typing in a hard-coded constant, you can compile-time-expand the literals from type-safe units, like for "Time" or "Distance" (e.g., "meters/yards", etc.)

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For the latter example, see Boost.Unit. –  Matthieu M. Aug 30 '11 at 15:35
    
One could quibble a bit about "discovered" vs. "designed". Type traits classes were designed pretty much as playing the role of a compile-time function mapping a type to something else, whether a typedef, static data member or whatever. So a limited programming model was intended. AFAIK, the accidental part was that this environment is Turing complete (within resource limits: usually quite a low template recursion limit), so not as limited as expected. –  Steve Jessop Aug 30 '11 at 16:18

While calculating prime numbers at compile time often is not really useful, have a look at libraries like boost units, where the correctness of calculations is somewhat asserted at compile time. For example, if you want to calculate the volume, but only multiply two lengths, boost units can assert this at compile time (and for all possibly derived SI units).

If you want to know more, look through boost, they have really a lot amount of template metaprogramming, not only in their mpl libraries, but actually used by other libraries. Often this is only some small tools that make chosing the appropriate template easier.

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Template meta-programmng is useful for many reasons. I am not sure if it's possible to get a complete answer.

In my opinion, the most important reason is it can help to improve type safety when complete type information may not be known during implementation. I think this is prominent because it adds strong return on investment.

This allows us to define behavior while deferring the type validation until compile time. The original implementation of STL didn't know how many implementations of Foo would ever exist, but it works for all of them. It won't let you pass in a Fu or a Bar by accident, either.

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