What is it the correct syntax to assign a Seq(Seq) into multiple typed arrays without assign the Seq to an scalar first? Has the Seq to be flattened somehow? This fails:

class A { has Int $.r }

my A (@ra1, @ra2);

#create two arrays with 5 random numbers below a certain limit

#Fails: Type check failed in assignment to @ra1; expected A but got Seq($((A.new(r => 3), A.n...)
(@ra1, @ra2) =
   <10 20>.map( -> $up_limit {
        (^5).map({A.new( r => (^$up_limit).pick ) })

Not entirely sure if it's by design, but what seems to happen is that both of your sequences are getting stored into @ra1, while @ra2 remains empty. This violates the type constraint.

What does work is

@ra1, @ra2 Z= <10 20>.map(...);

TL;DR Binding is faster than assignment, so perhaps this is the best practice solution to your problem:

:(@ra1, @ra2) := <10 20>.map(...);

Assigning / copying

Simplifying, your non-working code is:

(@listvar1, @listvar2) = list1, list2;

In P6 infix = means assignment / copying of the list of values from the right of the = into one or more of the container variables on the left of the =.

If a variable on the left is bound to a Scalar container, then it will accept one item. Then the copying process starts targeting the next container variable.

If a variable on the left is bound to an Array container, then it will accept all remaining values. So your first array variable receives both list1 and list2. This is not what you want.

Simplifying, here's Christoph's answer:

@listvar1, @listvar2 Z= list1, list2;

Putting the = aside for a moment, Z is an infix version of the zip routine. It's like (a physical zip pairing up consecutive arguments on its left and right. When used with an operator it applies that operator to the pair. So you can read the above Z= as:

@listvar1 = list1;
@listvar2 = list2;

Job done.

But assignment into Array containers entails:

  • Individually copying as many individual list items as there are into the containers. (In the code in your example list1 and list2 contain 5 elements each, so there would be 10 copying operations in total.)

  • Forcing the containers to resize as necessary to accommodate the items.

  • Doubling up the memory used by the items (the original list elements and the duplicates copied into the Array elements).

  • Checking that the type of each item matches the element type constraint.

Assignment is in general much slower and more memory intensive than binding...


:(@listvar1, @listvar2) := list1, list2;

The := operator binds arguments on its right to whatever's on its left.

If there's a single variable on the left then things are especially simple. After binding, the variable now refers precisely to what's on the right. (This is especially simple and fast -- a quick type check and it's done.)

But that's not so in our case.

Binding also accepts a standalone signature literal on its left. The :(...) in my answer is a standalone Signature literal.

(Signatures are typically attached to a routine without the colon prefix. For example, in sub foo (@var1, @var2) {} the (@var1, @var2) part is a signature attached to the routine foo. But as you can see, one can write a signature separately and let P6 know it's a signature by prefixing a pair of parens with a colon. The key difference is that any variables listed in the signature must have already been declared.)

When there's a signature literal on the left then binding happens according to the same logic as binding arguments in routine calls to a receiving routine's signature. (Indeed, it exercises the same code path in the compiler.)

So the net result is that the variables get the values they'd have inside this sub:

sub foo (@listvar1, @listvar2) { }
foo list1, list2;

which is to say the effect is the same as:

@listvar1 := list1;
@listvar2 := list2;

Again, as with Christoph's answer, job done.

But this time we'll have avoided most of the assignment overhead described at the end of the previous section.

  • Thanks for clarifying! I wonder what is the reason for Cannot use bind operator with this left-hand side? Another thing: I tried my (@a, @b) := [1], [2, 3] and it works, but I was not able to make this approach to work with the OP's map. For example: (@ra1, @ra2) := [<10 20>.map( -> $up_limit {[ (^5).map({A.new( r => (^$up_limit).pick ) })] --> Cannot use bind ... – Håkon Hægland Jun 6 at 7:05
  • Hi @HåkonHægland :) "One-pass parsing is darn near mandatory" ... "for an extensible, braided language". Once the parser reaches and parses the := it's committed itself to interpreting the thing on the left as a List. The (@a, @b) in my (@a, @b) is a Signature, very similar to a :(@ra1, @ra2) signature literal, as explained in my answer, albeit without the preceding colon. In contrast (@ra1, @ra2) is a List. – raiph Jun 9 at 19:38
  • Hi @raiph. Thanks for coming back to this comment again. After testing a little bit more, the question I have can be reduced to: my A (@a, @b); (@a, @b) := [A.new(r =>1)], [A.new(r => 2)]; --> does not work. But if I do not predeclare @a and @b: my A (@a, @b) := [A.new(r =>1)], [A.new(r => 2)]; it works! What am I missing here? – Håkon Hægland Jun 9 at 20:23
  • 2
    The my lets the parser know you're declaring something. The A is plausibly a type so the parser allows for that and that works out. Next, it sees a left paren, so it thinks "ah, must be a list of identifiers being declared". Sure enough, when it gets to the right paren that pans out so it decides "yeah", that's a my A (...) sort of signature thing. But when you instead write code that starts with a left paren without the preceding my the parser thinks "we've got an expression here". By the end paren it's parsed a List. And it's too late to change that when it hits the :=. – raiph Jun 9 at 23:41
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    It's likely we could make it DWIM, making it so that if := discovers it's got a list on its left it converts it to a signature, or perhaps come up with yet another way to bind that's specially for binding to a list, but for now the language just complains, essentially saying "stick a colon on the front if you want binding like it is when you call a routine". Curiously a my (...) style signature doesn't behave quite the same as a :(...) style signature (which isn't quite the same as a sub foo (...) style signature). I really don't think we want another one... – raiph Jun 9 at 23:50

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