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I'm still evaluating if i should start using D for prototyping numerical code in physics.

One thing that stops me is I like boost, specifically fusion and mpl.

D is amazing for template meta-programming and i would think it can do mpl and fusion stuff but I would like to make sure.

Even if i'll start using d, it would take me a while to get to the mpl level. So i'd like someone to share their experience.

(by mpl i mean using stl for templates and by fusion, i mean stl for tuples.)

a note on performance would be nice too, since it's critical in physics simulations.

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You shouldn't really need template metaprogramming; D has compile-time function evaluation. –  Mehrdad Jan 11 '13 at 22:13
    
@Mehrdad for everything? you can do find_if or transform on template parameters? –  kirill_igum Jan 11 '13 at 22:15
    
Not for everything (there are still bugs to be fixed), but for quite a lot of things. It's hard to give a generic answer but if you have a particular example please post it and I'll see if I can find a CTFE version of it and show you. –  Mehrdad Jan 11 '13 at 22:19
    
I was looking for a generic answer or some thoughts on the issue. but a specific example can be an example in this boost.org/doc/libs/1_52_0/libs/mpl/doc/refmanual/… –  kirill_igum Jan 11 '13 at 22:30
1  
Yeah definitely, I only put it in a pragma to illustrate that it's happening at compile-time. If you put it in normal code which doesn't require the value to be known at compile time then there's no guarantee that it will be evaluated at compile time (but it might be). As for "summing types", you can easily say typeof(Type1.init + Type2.init) to get the type that represents the sum of variables of type Type1 and Type2... that should get you what you need. –  Mehrdad Jan 11 '13 at 23:38

1 Answer 1

up vote 7 down vote accepted

In D, for the most part, meta-programming is just programming. There's not really any need for a library like boost.mpl

For example, consider the lengths you would have to go to in C++ to sort an array of numbers at compile time. In D, you just do the obvious thing: use std.algorithm.sort

import std.algorithm;

int[] sorted(int[] xs)
{
    int[] ys = xs.dup;
    sort(ys);
    return ys;
}

pragma(msg, sorted([2, 1, 3]));

This prints out [1, 2, 3] at compile time. Note: sort is not built into the language and has absolutely no special code for working at compile time.

Here's another example that builds a lookup table for Fibonacci sequence at compile time.

int[] fibs(int n)
{
    auto fib = recurrence!("a[n-1] + a[n-2]")(1, 1);
    int[] ret = new int[n];
    copy(fib.take(n), ret);
    return ret;
}

immutable int[] fibLUT = fibs(10).assumeUnique();

Here, fibLUT is constructed entirely at compile time, again without any special compile time code needed.

If you want to work with types, there are a few type meta functions in std.typetuple. For example:

static assert(is(Filter!(isUnsigned, int, byte, ubyte, dstring, dchar, uint, ulong) ==
              TypeTuple!(ubyte, uint, ulong)));

That library, I believe, contains most of the functionality you can get from Fusion. Remember though, you really don't need to use much of template meta-programming stuff in D as much as you do in C++, because most of the language is available at compile time anyway.

I can't really comment on performance because I don't have vast experience with both. However, my instinct would be that D's compile time execution is faster because you generally don't need to instantiate numerous templates. Of course, C++ compilers are more mature, so I could be wrong here. The only way you'll really find out is by trying it for your particular use case.

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