Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Could somebody say what returns? (link to some documentation page would be very appreciated) From error message its result is of type Result

ulong[] x = [1,2,3];
ulong[] y =!"a"(x); // Error: cannot implicitly convert <..> of type Result to ulong[]

In there is quite little info on it:

The call map!(fun)(range) returns a range of which elements are obtained by applying fun(x) left to right for all x in range

From this it is not clear, what I can or can not do with it.

share|improve this question
up vote 7 down vote accepted

You're not supposed to know or care what 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 auto:

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 std.array.array:

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 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.

share|improve this answer
"You're not supposed to know or care". Please correct me if I'm wrong, but if I should not know/care, then my example should compile – dnsmkl May 4 '12 at 14:08
I mean that you shouldn't know or care in that all you need to know about it is that it's a range of the same genre as the one passed in. The exact type is specific to map and not something that you're going to use. You just use auto to infer the type and use the range with the API that ranges have. If you want it to actually be a specific type, then you must convert it to that type with a function which takes a range and will generate the type that you want (e.g. std.array.array). – Jonathan M Davis May 4 '12 at 16:04
It seems unnatural that I am forced to use auto to use result of map (even if I like laizy eval. and stuff) Anyway, thanks for the answer & the link – dnsmkl May 4 '12 at 19:36
Well, it's a templated type. And even if map's return type were external to map, and you could see exactly what it was, it would be far too ugly to use. At its most basic level, it would be Map!(int[]), and once you start passing the result of one range function to another, the types get really ugly really fast. For instance, take until - one of the few functions in std.algorithm whose type is external. The type of until!"a == 7"(intArr) would be Until!("a == 7",int[],void). Do you really want to type that? std.algorithm is very powerful, but without auto, it borders on unusable. – Jonathan M Davis May 4 '12 at 19:56
Also, it's generally considered good practice in D to always use auto unless you can't (e.g. for a variable declaration which isn't directly initialized). So, using it for the result of map would be the normal thing to do even if it returned an array. – Jonathan M Davis May 4 '12 at 19:59

The Result range is 'lazy', it doesn't represent the final result.

It can be turned into an array if you import std.array and wrap it like so:

ulong[] y = array(!"a"(x));


ulong[] y =!"a"(x).array;

if you are using dmd 2.059 or later

The map result can also be iterated over directly with foreach:

auto result =!"a"(x);
foreach (element; result)
share|improve this answer
Why 2.059 or later? That's worked for ages. – Jonathan M Davis May 3 '12 at 20:36
@Jonathan He's refering to the UFCS notation – fwend May 3 '12 at 22:03
Ah, okay. I misunderstood and thought that the "dmd 2.059 or later" was referring to the part after that. array really should still have parens on it though or it won't compile with -property (and -property is supposed to become the normal behavior eventually, making the parens required here, since array isn't a property). – Jonathan M Davis May 3 '12 at 22:11
I edited the post to remove the 2.059 ambiguity. – gmfawcett May 4 '12 at 13:02

Result is a type inside map() that cannot be named because it is a Voldemort Type.

The actual source code in Phobos looks something like this:

template map(fun...) if (fun.length >= 1)
    auto map(Range)(Range r) if (isInputRange!(Unqual!Range))
        struct Result
        return Result(r);

If you study the source code you will notice that Result is nothing but a range: it has the usual popFront() and empty() methods, and other methods depending on the kind of range that needs to be returned. If you use type inference,

auto r = map!("a*a")(data);

r will be typed as Result, but you can't directly instantiate it.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.