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I just started to think on the subject. Every C++ template can be replaced with a "normal" function that returns a class (or function) object? Normal means compile-time program.

So I want to replace the template instantiation in C++ compiling with "normal functions (means compile time programs that works on compiler parse tree or something similar)", and I don't want to use the declerative syntax.

Do you think that with the following idea we can replace the whole template mechanism in C++? Do you think that this way result an easier to understand templating? The question a little bit theoretical I know, but I don't know where is the best place to discuss this kink of question.

template<typename T>
struct A
  int foo();
  bool bar;
  T data;

#if 0
class A(typename T) // class bulder after "("
  class ret;          // class object can only declared in class builder = "whatever_compile_time_string";
  ret += body         // body is a class builder member with class declaration syntax
           body();    // constructor
           ~body();   // destructor
           int foo(); // method
           bool bar;  // member
  ret += member(T, "data"); // "inject" a templated member

  return ret;

int main()
  A<int> a;
#if 0
  // create a new class
  typedef new class A(int) AInt;
  // or
  typedef new class A(int); // in this case must be an initialized thing
share|improve this question
Templates are indeed a form of compile-time code generation. Everything you can do with a template could also be done by spelling out the code explicitly. – Kerrek SB Sep 16 '12 at 16:53
Your example completely ignores the entire machinery of specialization, argument deduction and overload resolution, which is crucial to the importance of templates. – Kerrek SB Sep 16 '12 at 16:55
I’m not sure what the question here is. Yes, templates are metafunctions which return types. But beyond that … what do you want to know? – Konrad Rudolph Sep 16 '12 at 16:58
I think, I can update my example with specialization (with class builder function overload), argument deduction (ret.type or something syntax) and I started think on overload resolution – Industrial-antidepressant Sep 16 '12 at 16:58
@Konrad Rudolph: I want to know that this approach 1. almost the same as templating system that we have now, 2. this approach is easier to understand – Industrial-antidepressant Sep 16 '12 at 17:00
up vote 3 down vote accepted

Yes. What you are describing is a macro system. The C preprocessor provides a weak form of macros, but, in the general case, macros are nothing more or less than programs to write source code (taking source code as input), executed at compile time.

Now, the theory of macros turns out to be somewhat complicated. Obviously, you can do whatever you want with any macro system that lets you execute code at compile time, but a lot of work has gone into making it so that doing the right thing is easy. (In particular, it really helps to have syntax quotation construct that you can interpolate into.)

With a powerful macro system, many statements that were previously built into the language can instead be user-defined, or included in the standard library.

If you're interested in the subject, take a look at Scheme, and especially the Racket programming language. Racket has a very small core, and almost all of the language that the user experiences is built out of macros.

share|improve this answer

No. One of the main things about templates is that they provide statically inferred typesafe polymorphism.

By definition, you can't do that at runtime. If you want to move everything to runtime, don't use C++, use something optimised for late binding.

Update: If you're talking a function that is run at compile-time, then (a) you will need your compiler to interpret C++ (if you want to write it in C++), and you lose the benefits of the declarative, functional language that is templates. I don't see the benefit.

share|improve this answer
I wrote in the question that "Normal means compile-time program." – Industrial-antidepressant Sep 16 '12 at 16:46
@Industrial-antidepressant Great. You still can't perform type inference at compile time with a function. – Marcin Sep 16 '12 at 16:54
I want to introduce a compile-time-function like thing, that not run on runtime but in compile time. I want replace the template instantiation phase with these kind of "functions" – Industrial-antidepressant Sep 16 '12 at 17:02
@Industrial-antidepressant So, it's (a) not normal, in that it would run at compile time; and (b) require the function writer to manually code the type-inference procedure that templates perform? What's the benefit here? – Marcin Sep 16 '12 at 17:09
@Industrial-antidepressant given that templates are turing-complete (subject to stack depth restrictions in the compiler), it will definitely be possible. While I don't think that what you want to do is an improvement, maybe you will prefer it. – Marcin Sep 16 '12 at 18:37

There are two ways used by C programmers to achieve similar effects like templates in C++. However I do not see any beneficial from using these ways instead of templates in C++. But if you think templates are hard to understand, then look at these:

By using macros:

// N: typename, T: used type
#define MAKE_A(N, T)  class N { \
public: N(){} ~N(){}  bool flag; T data; }

MAKE_A(AInt, int);
MAKE_A(AFloat, float);

By using extra implementation-header files:

file: A.h (do not place inclusion guards):

// A_NAME: typename, A_TYPE: used type
class A_NAME { 
    bool flag; 
    A_TYPE data; 


#define A_NAME AInt
#define A_TYPE int
#include "A.h"
#undef A_NAME
#undef A_TYPE 

#define A_NAME AFloat
#define A_TYPE float
#include "A.h"
#undef A_NAME
#undef A_TYPE 
share|improve this answer
I know the Boost.PP ( but with this technique very hard to write a for loop or a simple if then construct. I want to achieve a type safe meta class framework in C++, just like in python: – Industrial-antidepressant Sep 16 '12 at 18:39
Maybe I am too C++ oriented ;) but C++ templates are easier for me than this python way. Just matter of taste. However I doubt you force C++ standard folks to introduce this change. You can try - start with comp.std.c++ group. – PiotrNycz Sep 16 '12 at 18:45
THX, I will think it over a little bit and I will write it there – Industrial-antidepressant Sep 16 '12 at 18:47

One advantage of BOOST.PP over templates is that programs generated with BOOST.PP compile faster than equivalent programs using templates, at least according to this post to the boost devel list.

Even with the improved speed of gcc using hashes instead of linear lookup, I believe using BOOST.PP is still faster, I guess because of the limitations mentioned by Walter Bright in the referenced post.

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