This is at best a nanswer. It is a thus-far failed attempt to figure out this problem. I may have just wandered off into the weeds. But I'll publish what I have. If nothing else, maybe it can serve as a reminder that the first three steps below are sensible ones; thereafter I'm gambling on my ability to work my way forward by spelunking source code when I would probably make much faster and more reliable progress by directly debugging the compiler as discussed in the third step.
OK, the first step was an MRE. What you've provided was an E that was fully R and sufficiently M. :)
Step #2 was increasing the M (golfing). I got it down to:
Any.tail('0'); # OK
Any.tail('1'); # BOOM
Note that it can be actual values:
1.tail('1'); # BOOM
(1..2).tail('1'); # BOOM
But some values work:
(1,2).tail('1'); # OK
Step #3 probably should be to follow the instructions in Playing with the code of Rakudo Perl 6 to track the compiler's execution, eg by sticking
says in its source code and recompiling it.
You may also want to try out App::MoarVM::Debug. (I haven't.)
Using these approaches you'll have the power to track with absolute precision what the compiler does for any code you throw at it. I recommend you do this even though I didn't. Maybe you can figure out where I've gone wrong.
In the following I trace this problem by just directly spelunking the Rakudo compiler's source code.
A search for "method tail" in the Rakudo sources yielded 4 matches. For my golf the matching method is a match in
$n clearly isn't a
Callable so the pertinent line that continues our spelunking is
A search for this leads to this method in
This in turn calls this
These three lines:
n <= 0, # must be HLL comparison
Rakudo::Iterator.Empty, # negative is just nothing
'0' works. The
<= operator coerces its operands to numeric before doing the numeric comparison. So
'0' coerces to
0, the condition is
True, the result is
Rakudo::Iterator.Empty, and the
() and doesn't complain.
The code that immediately follows the above three lines is the else branch of the
nqp::if. It closes with
That in turn calls the
!SET-SELF routine, which has the line:
($!lastn := nqp::setelems(nqp::list, $!size = size)),
Which attempts to assign
size, which in our BOOM case is
$!size is declared as:
has int $!size;
Or is it? I don't know if I really have correctly tracked the problem down. I'm only spelunking the code in the github repo, not actually running an instrumented version of the compiler and tracing its execution, as discussed as the sensible step #3 for trying to figure out the problem you've encountered.
Worse, when I'm running a compiler it's an old one whereas the code I'm spelunking is the
Why does this work?
(*,*).tail('1') # OK
The code path for this will presumably be this method. The parameter
$n isn't a
Callable so the code path will run thru the path that uses the
$n in the lines:
nqp::istype($n,Whatever) || $n == Inf,
$iterator.skip-at-least(nqp::elems($!reified) - $n.Int)
$n == Inf shouldn't be a problem. The
== will coerce its operands to numerics and that should take care of
nqp::elems($!reified) - $n.Int shouldn't be a problem either.
The nqp ops doc shows that
nqp::elems always returns an
int. So this boils down to an
int - Int which should work.
A blame of these lines shows that the
.Int in the last line was only added 3 months ago.
So, clutching at straws, what happens if one tries:
(my int $foo = 1) - '1' # OK
Nope, that's not the problem.
It seems the trail has grown cold or rather I've wandered off the actual execution path.
I'll publish what I've got. Maybe someone else can pick it up from here or I'll have another go in a day or three...