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I am trying to use a reference to an array in various ways that I understand can be done.
Here's one of my trial: -

my $RoR = [[2, 3], [4, 5, 7]];
my @AoA = ([2, 3], [[2, 3], [4, 5, 7]]);
my @AwR = ([2, 3], @{$RoR});

print $AoA[1][1][1], "\n";      # 1
print $AoA[1]->[1][1], "\n";    # 2

#print $RoR[0][1], "\n";        # 3
print $RoR->[0][1], "\n";       # 4

print $AwR[1][1][1], "\n";          # 5
print $AwR[1]->[1][1], "\n";        # 6

As you can see, I have three different arrays.

  • $RoR -> Is a reference to an anonymous array, which contains two anonymous arrays

  • @AoA -> Is an array containing 2 anonymous array. 2nd anonymous array is same as the array pointed to by the reference $RoR

  • @AwR -> Is almost same as @AoA, but with a difference that, rather than having a new anonymous array, I have added the reference @{$RoR} itself, inside it. So, basically I think, the last two arrays are practically the same.

Now, the problem is, they are not behaving in the same way.

  • The print statements 1, and 2 are working fine, and printing out the value 5 as result.

  • The print statement 3 is giving error, which I know why, so no problem in it. The print statement 4 is printing the value 3, as expected.

  • Now, the print statement 5 and 6 are throwing some errors when I try to run the program.

    "Can't use string ("2") as an ARRAY ref while \"strict refs\" in use at 
    D:/_Perl Practice/3perldsc/ line 15."

Then I tried using: -

print $AwR[1][1]->[1], "\n";    
print @{$RoR}[1]->[1];

Where, I replaced $AwR[1] with @{$RoR}, as $AwR[1] contains @{$RoR}. The second one is working fine, while the first one is still throwing error.

So, what exactly is the difference between the 1st two and the last two print statements? I thought they are the same, and hence should give same result for same index access. But it is not. Am I using the reference in some wrong way?

Ok, now above doubt is clear. So, I have posted an answer accumulating the general stuff related to this question. Please take a look at it below. In that, I have a doubt in the 5th and 6th print statement, and to understand it I tried the below test: -

print $AwR[1][1];   # Allowed as `$AwR[1]` is same as `$$RoR`.
print $$RoR[1];     # Allowed as in 3(b)
print $AwR[1]->[1]; # Confused here. It is allowed
print $$RoR->[1];   # But this is not.

The first three statement are printing the same reference value. But the last one is failing. So, its sure that :- $AwR[1] is same as $$RoR. But, why $$RoR->[1] is not working while $AwR[1]->[1] is working? It's throwing me this error: -

Not a SCALAR reference at D:/_Perl Practice/3perldsc/ line 24.

So, what's the difference in using it in two different way?

share|improve this question
may I recommend the excellent doc perldoc perlreftut, it really helped me learn these things! – Joel Berger Oct 31 '12 at 21:05
@JoelBerger. Thanks for that, but I am studying from that only. And I posted this example after understanding from the doc only.. :( – Rohit Jain Nov 1 '12 at 17:48
up vote 4 down vote accepted

In assignement to @AwR you dereference your reference to anonymous array $RoR, so you get basicly this behaviour:

my @AwR = ([2, 3], [2, 3], [4, 5, 7]);

not expected:

my @AwR = ([2, 3], [[2, 3], [4, 5, 7]]);


If we have multidimensional array (array of arrays, AoA), then every dimension after first has to be a reference. So there is no need to explicitly to use dereferencing arrow, but it is allowed. So, if we have AoA as reference, we need to dereference first dimension explicilty and we may do it two ways $$AoA or $AoA->, but we can't dereference it twice as you noticed ($$RoR->[1] in your example).

Any following dimension we may omit dereferencing arrow, when we need address to certain element, so there is two equivalent use:

my @AoA = ([2, 3], [ [2, 3], [4, 5, 7, [11, 12, [111, 112] ] ] ], [0]);
print "A: $AoA[1][1][3][2][0] \n";          # == 111
print "B: $AoA[1]->[1]->[3]->[2]->[0] \n";  # == 111

or AoA as reference

my $AoA = [ [2, 3], [ [2, 3], [4, 5, 7, [11, 12, [111, 112] ] ] ], [0] ];
print "A: $$AoA[1][1][3][2][0] \n";           # == 111
print "B: $AoA->[1]->[1]->[3]->[2]->[0] \n";  # == 111
share|improve this answer
Thanks. Don't know why, when I tried using $RoR. I got some error, so I changed to @{$RoR}. Then again I tried $RoR. And found that, I was getting error because I was accessing it like this: - print ${$RoR}->[1][1]. Where I actually thought I am replacing $AwR[1] with $RoR in print $AwR[1]->[1][1]. But I was not. So silly of me. :( Thanks again. :) – Rohit Jain Oct 31 '12 at 11:24
@w.k.. Hello, Can you please take a look at my post again. I have got a doubt and posted it here. I didn't created a new question, because it is related to this only. – Rohit Jain Oct 31 '12 at 13:15
@RohitJain: i updated my answer, hope it makes it clear – w.k Oct 31 '12 at 19:40
@w.k.. Wow, its so clear now. Thank you so much. :) – Rohit Jain Nov 1 '12 at 17:52

It appears that you are expecting @AoA and @AwR to be identical, they are not. You can see this with a simple test script:


use strict;
use warnings;
use Test::More;

my $RoR = [[2, 3], [4, 5, 7]];
my @AoA = ([2, 3], [[2, 3], [4, 5, 7]]);
my @AwR = ([2, 3], @{$RoR});

is_deeply(\@AwR, \@AoA, 'arrays match');

This is because of the way in which you are inserting $RoR into @AwR. To create an array identical to @AoA create @AwR without dereferencing $RoR:

my @newAwR = ([2, 3], $RoR);

and test to confirm this is correct:

is_deeply(\@newAwR, \@AoA, 'arrays match');
share|improve this answer
Thanks for that test @nickisfat. Really helpful. Got it now where I went wrong. :) – Rohit Jain Oct 31 '12 at 11:25
@nickisfat.. Hello, Can you please take a look at my post again. I have got a doubt and posted it here. I didn't created a new question, because it is related to this only. – Rohit Jain Oct 31 '12 at 13:16

Ok, now that I got it somewhat clear, I thought I would post what I have as an answer: -

use strict;
use warnings;
use Test::More;

my $RoR = [[2, 3], [4, 5, 7]];
my @AoA = ([2, 3], [[2, 3], [4, 5, 7]], [0]);
my @AwR = ([2, 3], $RoR, [0]);

print "1: ", $AoA[1][1][1], "\n";       # 1
print "2: ", $AoA[1]->[1][1], "\n";     # 2

#print "3(a): ", $RoR[0][1], "\n";      # 3(a) 
print "3(b): ", $$RoR[0][1], "\n";      # 3(b)          
print "4: ", $RoR->[0][1], "\n";        # 4

print "5: ", $AwR[1][0][1], "\n";       # 5
print "6: ", $AwR[1]->[0][1], "\n";     # 6

print "7: ", $AwR[1][1]->[1], "\n";     # 7
print "8: ", @{$RoR}[1]->[1], "\n";     # 8
print "9: ", @{$AwR[1]}[1]->[1], "\n";  # 9

Explanation: -

  • First two print statements are straight forward. They both will print the value 5
  • 3(a) will not compile, as we cannot access index of anonymous array on reference without an arrow.
  • 3(b) works, because now, we have de-referenced our reference - $RoR by using $$RoR

  • 4th print statement, is similar to the 3(b), and is a clear way to do what 3(b) is doing. Since RoR is a reference to an anonymous array, so we can't access the elements like the normal array. We have to use an arrow (->). After arrow we can add indices to any level to access nested anonymous array.

$$RoR[0][1] works because, $RoR binds more tightly to the de-referencer $ on the left side, than to the subscript operator on the right side. So, first $RoR is de-referenced to get the array, and then subscript is applied.

Here's a quote from the Perl Documentation: -

Perl's precedence rules on its five prefix dereferencers(which look like someone swearing: $ @ * % &) make them bind more tightly than the postfix subscripting brackets or braces.
The seemingly equivalent construct in Perl, $$aref[$i] first does the deref of $aref, making it take $aref as a reference to an array, and then dereference that, and finally tell you the i'th value of the array pointed to by $AoA

  • 5th and 6th print statement are similar to 3(b). Since $AwR[1] contains the reference $RoR only. So, $AwR[1] gets converted to: $$RoR. Hence, $AwR[1][0][1] is similar to $$RoR[0][1] in 5th statement. And the 6th statement: - $AwR[1]->[0][1] gets converted to: - $$RoR->[0][1]. Now here's my doubt. How is 6th statement working. Why can we use an arrow on a de-referenced reference.

  • In 7th print statement, $AwR[1][1]->[1] is similar to ${$RoR}[1]->[1]. So, it is clear that de-referencing is done prior to the subscript operator. Hence, we can access the 2nd element on array obtained after de-referencing the reference $RoR.

  • 8th and 9th print statement are pretty same. There also, we are de-referencing the reference $RoR. But now, we are de-referencing to an array rather than a scalar.

I have tried to explain in the best way I could. If there is something wrong or something missing in the above explanation, then please point that out. That will help me learn more.

Also, can someone please explain the 5th and 6th print statement. I'll add this to the question above.

share|improve this answer

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