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I am writing a library for efficient number processing. I have to support different types of numbers — double, complex, or even custom_matrix maybe. For performance reasons I've decided to compile separate library file for each number kind, so that compiler may use aggressive optimizations for arithmetic operations and function calls. Now I have two options — either to write template classes with parameter number_type, e.g.

template <typename valueType>
class Worker {
    valueType process(valueType value);

or to typedef number kind in project-wide header file, e.g.

in 'project.hpp':

namespace myProject {
    typedef double valueType;

in 'worker.hpp':

#include "project.hpp"

namespace myProject {
    class Worker {
        valueType process(valueType value);

Personally I can't accept either way: template-based code is driving me insane with tons of redundant template and typename keywords, meanwhile typedef-based code can't be compiled in single library file (linking fails because of duplicate names), so I can't use different number types in one program.

So the question is: am I missing something? Is there a better/cleaner way to accomplish my task?

EDIT: I have to use double and complex code in one application at the same time.

EDIT2: Okay, to make things clear: I'm developing an arithmetic expression parsing engine for iOS app. Therefore I'm limited to C/C++/Objective-C, and the performance is crucial.

Also, I feel comfortable in using templates in common circumstances. In my situation all my source files are full of angle brackets and template/typename keywords. It's simply annoying and distracts me from writing stuff that matters.

I guess I'll use templates, since there is no better solution as far as I can see.

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If you can't "accept" templates than you shouldn't be using C++. –  ildjarn Jan 26 '12 at 0:59

3 Answers 3

up vote 2 down vote accepted

You should use the templates. If you insist on doing the absolute maximum amount of work at compile time instead of at run time, and your language of choice is C++, you will use template programming.

It's a mess of less-than and greater-than signs, confusing error messages, and typename keywords (plus don't get me started on explicit instantiations when you don't want to define your whole class in the header!), but it's the mess we've got.

EDIT: there is a third option, in the form of preprocessing - you could run the same code through the preprocessor twice, putting the symbols in a different namespace each time, to get the same effect as the typedef version without the symbol collisions.

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Just always remember to put in your spaces between your closing > > > > ... –  Stu Jan 26 '12 at 0:37
@Stu: in conjunction with preprocessor-expanded names so you don't even notice the >> when you look at the source code... –  Borealid Jan 26 '12 at 0:38
AAAAH! Stop! Bad acid-like early Spirit library flashbacks! And people wonder why I veto C++ for production code... –  Stu Jan 26 '12 at 0:41
@Stu: Instead of putting spaces between the closing > one could simply use C++11, where closing nested templates with >> (or more > depending on the nestin) is perfectly legal. –  Grizzly Jan 26 '12 at 0:52
@ildjarn: I am not afraid of any tools. I just think that C++ is becoming increasingly marginal. The hit in productivity and maintainability is very, very rarely worth it. In other news, I also refrain from performing home maintenance with a bazooka. –  Stu Jan 26 '12 at 1:29

There really isn't a better way. Threrefore if you need to use more then one type in any given program templates are basically the way to go. If you are sure that will never happen go ahead with typedefs, since they will be sufficient in that case and are easier to read/debug.

Of course if you write templates long enough they can become quite naturally up to the point where you use them even if they aren't strictly necessary (as in there would be other reasonable ways to solve the given problem). At least thats what happened to me

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C++ people will tell you to use template without asking how your code is actually going to be used.

The key question here is: will your library ever be used with two different number types at the same time?

If the answer is "no" then templates would be a terrible choice. As you are well aware, templates are not easy to work with: they create more work for you, more work for the compiler, and more work for the IDE (that tries to parse them to provide autocompletion).

Just use a global typedef. You will save yourself a lot of headaches in the long run. By the way, this is exactly what the Bullet physics library does.

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Yes, I need to use double and complex in one application, that is the catch. Otherwise I would just stuck with typedef, as you suggested, and compile library to separate object files. –  UncleAli Jan 26 '12 at 1:04

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