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
int sorted(int xs)
int ys = xs.dup;
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];
immutable int fibLUT = fibs(10).assumeUnique();
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.