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Maintainability of templates is a problem. This is a simple fact, when you're working outside the community dedicated to generic libraries. I don't want my friends and colleagues to have to use Clang to run my code, simply because... well... then it's not really generic and portable, is it? But I do desperately want to be able to write some templated code now and then.

What are some tricks you use to make templated code more usable, more maintainable, and just outright more readable? Things like descriptive template arguments, enable-ifs, and similar little quirks of code style, all the way up to advice regarding things like which compilers support variadic templates or what template (anti-)patterns to avoid.

In short, what idioms should I avoid? Which should I lean on?
I want my code to be elegant but not too elegant.

Some resources I have found:
Error Decrypt
What are variadic templates?

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Couldn't you give your question a title that just hinted at what you're asking? It'd be nice if someone looking at the list of recent questions had just a little clue what this was about, without having to read the full question. – jalf Dec 21 '10 at 20:01
@jalf - I think it's just a "templates suck" bitch piece :p – Crazy Eddie Dec 21 '10 at 20:05

5 Answers 5

up vote 10 down vote accepted

I use the following approach:

  • Segregate your numerous class helpers in a detail_ namespace; only expose what is necessary.
  • For (almost) each template class, provide a helper function to construct the type: it is especially useful for iterators and functors which can then be constructed inline. Use a good naming scheme for this: iterator_transformer<Iter, F> is constructed by transform_iterator.
  • Use a good naming scheme (nouns for classes, verbs for methods, adjectives for enums). Take a suffix convention (_traits, _concept, ...) and stick to it (1)
  • Have a convention for template metaprogramming: for me type is the "return type" of a metafunction which returns types, value is the static const return type of a function returning a static const integer, other is for metafunctions returning templates. You may want to use boost MPL if you abuse metaprogramming, and follow their conventions (thanks @Noah Roberts)
  • Don't be spewy: do the simplest thing which suits your needs. Use generic programming only if it brings something to your code. Sometimes, plain polymorphism is better.
  • Organize your code in headers: inline implementations go into "implementation headers" files that you #include in your "includable" header
  • Force yourself to use standard algorithms: they make the code more readable
  • Provide toy/test/sample classes, especially if you want people to extend your code.
  • Use typedefs often: you should strive, as usual, not to comment your code.
  • Don't be paranoid with making the compiler fail early: seldom use enable_if, it makes the code less readable. You can use it internally however.
  • You have two main tools: template argument deduction for function templates, and pattern matching with partial specialization of class templates. You should try to use these tools in the most simple way possible. In particular, don't try to overload functions based on whether a type implements a certain concept, or abuse enable_if. Keep it simple.
  • Split the implementation of complex classes into simpler ones. Abuse traits classes in this respect (thanks @Noah Roberts)

(1) I use _concept for base classes for the CRTP pattern (ie. "static polymorphism"). CRTP is good as it allows you to refine a default implementation with minimal code.

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Good stuff. You missed, "split complex instantiations into simpler ones." Same as any other kind of coding really. As to standardizing your metafunction conventions I'd suggest using those standardized by MPL. – Crazy Eddie Dec 21 '10 at 20:22
You made one mistake: starting your names with underscores... these are reserved by the implementation (at least double underscore and underscore+capital names), so I would avoid that always. – rubenvb Dec 21 '10 at 20:24
@rubenvb - those are suffixes. – Crazy Eddie Dec 21 '10 at 20:25
@rubenvb: those are only suffixes, like in iterator_traits or random_generator_concept. – Alexandre C. Dec 21 '10 at 20:25
oops, my bad :s – rubenvb Dec 21 '10 at 20:37

I agree with most answers here which state that templates are an (increasingly ?) important component of the language, and that no one can pretend being a C++ developer without an ability to read some reasonable template code.

However, templates can get messy, so I tend to follow a few guidelines :

  • Only show the strict minimum and hide details in a details namespace or, even better, in a separated header file
  • When possible, use default template arguments to ease the syntax : no one likes to write the very same template arguments list over and over
  • Remember that sometimes, templates may also be an implementation detail : them being the implementation of choice for a given problem doesn't prevent you from exposing a single abstract base class to your library users
  • Use typedef as much as possible : when a 'family' of template classes work together and tend to expect the very same template arguments, provide nested typedef (either in the 'main' library object, or in a separate template struct).
  • Comment your code, and most notably express the requirements on each template parameter
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+1 "express the requirements on each template parameter". Sounds obvious, but it's good to have all those requirements in one place, in natural language. – aschepler Dec 21 '10 at 21:39

I don't really understand. The problems with templates are due to the difficulty of getting the include orders and declaration/definition orders correct, not portability.

Templated code is no less portable than regular code.

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I think he might be talking about how to make template code accessible to people who don't understand templates... Which is impossible, just like even the purest and most elegant Haskell code is impossible to use or maintain for someone who doesn't know Haskell. – jalf Dec 21 '10 at 20:03
Well, that's not entirely true. Shitty compilers usually crap out on templates before anything else. I've crashed MSVC++ numerous times with perfectly legit template code and that's the MODERN versions; older versions where even worse. – Crazy Eddie Dec 21 '10 at 20:04
They were absolutely terrible. SFINAE support was........ Let's not talk about it. – Jake Kurzer Dec 21 '10 at 20:05
Hmm, I haven't managed to crash a modern version of MSVC with template code. And I've tried pretty hard. ;) – jalf Dec 21 '10 at 20:08
If you have a specific template problem, then post it. Else, templates are Standard, and therefore just as portable as anything else. – Puppy Dec 21 '10 at 20:10

It sounds to me like the real problem is that you're trying to make C++ code accessible to non-C++ programmers. Templates are an important part of the C++ language, and have been since long before the language was standardized.

If your coworkers have trouble with that, then it's hard to justify calling them C++ programmers. Then you really only have two options:

  • don't write C++ code. Write C, or perhaps a kind of "C with classes" dialect of C++, or
  • educate your coworkers. If you're supposed to be working in C++, then everyone on the team should be able to deal with code written in C++.
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I think you're being a bit harsh here. Even if the target audience is C++ programmers, using template-based libraries is one thing, but implementing (or figuring out what's going on in) complex templates is quite another thing. Coming up with a coherent set of idioms to follow for writing (or to expect to be able to read) template code makes good sense. – Michael Burr Dec 21 '10 at 21:32
@Michael: how is it harsh? If your coworkers don't understand the code you're writing, then you either have to get better coworkers (education), or write simpler code. – jalf Dec 21 '10 at 21:53
I am asking about how to write simpler templated code, in a more readable way. :) – Jake Kurzer Dec 21 '10 at 22:14

Its been a good while since I did c++ but I would say for readability comment as you go along. because its at that stage we have trouble , no use doing it afterwards when you figured it out. someone else may not understand it at that level. Also for templates in C++ you could use virtual functions i.e. a generic account say for staff with generic attributes and methods and implement them in the derived classes e.g. part time staff , manager etc.

Most importantly I would suggest that you get comfortable with a coding standard and keep it uniform throughout all your code and use white space.

thats all I can think of at the minute. Good Luck

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-1 for this: "Also for templates in C++ you could use virtual classes i.e. a generic account say for staff with generic attributes and methods and implement them in the derived classes e.g. part time staff , manager etc." – Crazy Eddie Dec 21 '10 at 20:07
Noah why did you down vote it. Is the template not more flexible this way ? , as the base class methods can be overridden if needed. – Shpongle Dec 21 '10 at 20:13
Actually, thanks to SFINAE and a couple other tricks, I think you could argue that templates are more flexible. Maybe it'd be better to call them more general, since you could also template a function, or many similar things. – Jake Kurzer Dec 21 '10 at 20:14
I agree completely with what Crazy Eddie said. The quoted sentence is a Java mindset, not a C++ mindset. – Patrick Niedzielski Aug 25 '12 at 3:19

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