You're not supposed to know or care what
std.algorithm.map returns beyond the fact that it's a range of the same genre as the one passed in (forward, bidirectional, random, etc.). It's that way with most range-based functions. They almost always return either a new range which wraps the one passed in or a the exact same type of range as was passed in (e.g.
map does the former;
find does the latter). Use
ulong x = [1, 2, 3];
auto y = map!"a"(x);
The range returned by
map is lazy. It doesn't do anything until you iterate over it (it then calls the given function on each successive
front of the underlying range). It's more efficient that way (as well as enabling infinite ranges). The exact return type depends on the type of range that you passed in and is local to
map so that you can't create one directly. You need to either use
auto to infer the type or
typeof to get the type:
typeof(map!"a"(x)) y = map!"a"(x);
However, you generally only use
typeof when you need a variable which you cannot initialize directly.
auto is almost always the way to go.
If you need to create an array from the result of
map (or from any other range), then use
ulong y = array(map!"a"(x));
If you don't know much about ranges, then you should probably read this. Unfortunately, there isn't currently an article on dlang.org explaining ranges, but that link is for a chapter in a book which one of the members of the D community wrote in Turkish and has been translating to English, and it covers ranges fairly well.
Walter Bright recently wrote an article specifically about types which are local to a function but returned by the function which may also help enlighten you. They even get a cool name:
Voldemort Types in D.