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This works:

int[] a = [ 1, 2, 3, 4 ];
fill(a, 5);

but this doesn't:

int[4] a = [ 1, 2, 3, 4 ];
fill(a, 5);

and I get this error:

Error: template std.algorithm.fill(Range,Value) if (isForwardRange!(Range) && is(typeof(range.front = filler))) does not match any function template declaration

instead, I have to do this in order for it to work with static arrays:

int[4] a = [ 1, 2, 3, 4 ];
fill(a[], 5);

could any one explain this behavior please?

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2 Answers 2

up vote 5 down vote accepted

No. isForwardRange is false for static arrays, because they're not valid forward ranges. They must have a valid front, empty, and popFront.

A range must be mutated as it's iterated over. popFront removes the first element from the range, reducing the length of the range by one. static arrays cannot be mutated. Their elements can be, but they can't be.

int[5] a;
a.length = 4;

is illegal. So, popFront cannot work with static arrays and therefore static arrays cannot be ranges.

front, empty, and popFront are declared for arrays in std.array, and front and empty will work with static arrays, because they explicitly take dynamic arrays (not ranges), and static arrays can be implicitly converted to dynamic arrays when a function takes a dynamic array (a slice of the static array is taken). However, popFront won't work, because it requires a ref of a dynamic array. And as, I pointed out, popFront can't be made to work with static arrays regardless of popFront's implementation, because you can't mutate a static array as would be required for a range.

Now as for fill, it takes a forward range, not an array. So, IFTI (implicit function template instantiation) will try and use the static array type (not the dynamic array type) with it. And since isForwardRange is false for a static array, fill fails to compile with a static array. However, when you slice the static array, you're then passing a dynamic array, for which isForwardRange is true. So, it works. And because, the slice points to the same elements, and fill mutates the elements and not the array, the elements in the static array are mutated by fill.

Be wary, however, of passing slices of static arrays to functions. As long as the static array exists, it's fine. But once the static array leaves scope, any slice of it is then invalid. So, doing something like

int[] foo()
{
    int[5] a = [1, 2, 3, 4, 5]
    return find(a[], 3);
}

would be very bad. A reference to a is escaping foo - namely a slice of its last 3 elements.

So, if you are passing a slice of a static array to a function, you need to be sure that no references to that array escape. fill, however, should be fine.

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Am I right in saying you have to slice with Array and SList as well? Seems like a bit of a design flaw. –  Peter Alexander Jan 16 '12 at 22:01
    
It's not really a design flaw IMHO. It's more of a case that dynamic arrays are a weird special case of ranges. But since they're currently the most common case, it's what we're used to.A container would have to implicitly convert to its slice type for IFTI in order for it not need to be explicitly sliced when passing to a function, and that would make it much more difficult to pass containers to templated functions. And I'm not sure that it would be a good idea for all sliceable types to be automatically sliced with IFTI in general - even when just dealing with ranges. –  Jonathan M Davis Jan 16 '12 at 23:02
    
You can think of it like this. Containers - including static arrays - need to be sliced in order to get a range over them. So, if you want a range over them for any reason - including passing to a range-based function - you have to explicitly slice them. But dynamic arrays are already ranges rather than containers, so slicing isn't necessary. –  Jonathan M Davis Jan 16 '12 at 23:05
    
Then why does fill require a range, why does it not require a general container / array which is slicable? Internally it could slice and obtain the range it so requires. Errors like this will then not occur. –  Daevius Jan 17 '12 at 12:35
1  
@Daevius There's nothing redundant about it. A dynamic array is a range. A static array is not. Also, a dynamic arrange is a slice, whereas a static array is not. A static array owns its memory. A dynamic array does not. You're explicitly requesting that the static array be sliced so that you can get a dynamic array. You're getting a slice of it just like you'd get a slice of a container. If IFTI treated static arrays as dynamic arrays, then it would be harder to pass static arrays to templated functions as static arrays when you actually want a static array. –  Jonathan M Davis Jan 18 '12 at 1:19

isForwardRange checks for the existence of the front, empty properties and popfront() function

the issue is that popfront() would need to shrink the array, as you (should) know you can't resize a static array but a slice of a static array (essentially a normal dynamic array) can be resized (this of course doesn't affect the static array)

to clarify a.popfront() would need to transform a from int[4] to int[3] but that's not possible

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i.e. The argument and return types of popfront must be the same? –  BCS Jan 18 '12 at 19:32
    
popfront is a function that changes the this parameter so the front property changes (pointing to the 'next' element) (and maybe the empty property) this isn't possible with the static array because the length is set at compile time and part of the type. –  ratchet freak Jan 18 '12 at 19:47

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