112

Which is the best implementation(in terms of speed and memory usage) for iterating through a Perl array? Is there any better way? (@Array need not be retained).

Implementation 1

foreach (@Array)
{
      SubRoutine($_);
}

Implementation 2

while($Element=shift(@Array))
{
      SubRoutine($Element);
}

Implementation 3

while(scalar(@Array) !=0)
{
      $Element=shift(@Array);
      SubRoutine($Element);
}

Implementation 4

for my $i (0 .. $#Array)
{
      SubRoutine($Array[$i]);
}

Implementation 5

map { SubRoutine($_) } @Array ;
6
  • 2
    Why would there be a "best"? Especially given that we have no idea how you would measure one against another (is speed more important than memory use? is map and acceptable answer?. etc.) Commented May 7, 2012 at 18:50
  • 2
    Two of the three you posted would make me go "WTH?!" unless there as additional surrounding context to make them sensible alternatives. In any case, this question is at the level of "What's the best way to add two numbers?" Most of the time, there is only one way. Then, there are those circumstances, where you need a different way. Voting to close. Commented May 7, 2012 at 19:21
  • 4
    @SinanÜnür I empathize with your opinion (that there is only one way to add two numbers), but the analogy is not strong enough to use dismissively. Obviously, there is more than one way, and the OP wants to understand what's a good idea and what isn't. Commented May 7, 2012 at 19:39
  • 2
    Chapter 24 of the third edition of Programming Perl has a section on efficiency that is a good read. It address the different types of efficiency such as time, programmer, maintainer. The section starts off with the statement "Note that optimizing for time may sometimes cost you in space or programmer efficiency (indicated by conflicting hints below). Them's the breaks."
    – user289086
    Commented May 7, 2012 at 21:14
  • 1
    One 1 way to add two numbers? Not if you look into lower level calls / implementations.... think carry lookahead, carry save adders etc.
    – workwise
    Commented Sep 30, 2013 at 16:10

6 Answers 6

93
  • In terms of speed: #1 and #4, but not by much in most instances.

    You could write a benchmark to confirm, but I suspect you'll find #1 and #4 to be slightly faster because the iteration work is done in C instead of Perl, and no needless copying of the array elements occurs. ($_ is aliased to the element in #1, but #2 and #3 actually copy the scalars from the array.)

    #5 might be similar.

  • In terms memory usage: They're all the same except for #5.

    for (@a) is special-cased to avoid flattening the array. The loop iterates over the indexes of the array.

  • In terms of readability: #1.

  • In terms of flexibility: #1/#4 and #5.

    #2 does not support elements that are false. #2 and #3 are destructive.

4
  • 10
    Wow, you added truck loads of information in short and simple sentences. Commented Aug 17, 2014 at 19:50
  • 2
    #2 is good when you do queues (e.g. breadth-first searches): my @todo = $root; while (@todo) { my $node = shift; ...; push @todo, ...; ...; }
    – ikegami
    Commented Feb 2, 2015 at 14:40
  • Doesn't implementation 4 create an intermediate array of indices, which might introduce a large amount of memory to be used? If so, sounds like one shouldn't use that approach. stackoverflow.com/questions/6440723/… rt.cpan.org/Public/Bug/Display.html?id=115863 Commented Jan 14, 2019 at 11:40
  • @ikegami True to your champion style - great answer :)
    – skeetastax
    Commented Aug 22, 2020 at 1:37
33

If you only care about the elements of @Array, use:

for my $el (@Array) {
# ...
}

or

If the indices matter, use:

for my $i (0 .. $#Array) {
# ...
}

Or, as of perl 5.12.1, you can use:

while (my ($i, $el) = each @Array) {
# ...
}

If you need both the element and its index in the body of the loop, I would expect using each to be the fastest, but then you'll be giving up compatibility with pre-5.12.1 perls.

Some other pattern than these might be appropriate under certain circumstances.

2
  • I would expect the each to be the slowest. It does all the work of the others minus an alias, plus a list assignment, two scalar copies and two scalar clearings.
    – ikegami
    Commented May 8, 2012 at 2:44
  • 1
    And, to the best of my measurement ability, you are right. About 45% faster with for iterating over indices of an array, and 20% faster when iterating over the indices of an array reference (I do access $array->[$i] in the body), over using each in conjunction with while. Commented May 8, 2012 at 3:48
4

IMO, implementation #1 is typical and being short and idiomatic for Perl trumps the others for that alone. A benchmark of the three choices might offer you insight into speed, at least.

4

The best way to decide questions like this to benchmark them:

use strict;
use warnings;
use Benchmark qw(:all);

our @input_array = (0..1000);

my $a = sub {
    my @array = @{[ @input_array ]};
    my $index = 0;
    foreach my $element (@array) {
       die unless $index == $element;
       $index++;
    }
};

my $b = sub {
    my @array = @{[ @input_array ]};
    my $index = 0;
    while (defined(my $element = shift @array)) {
       die unless $index == $element;
       $index++;
    }
};

my $c = sub {
    my @array = @{[ @input_array ]};
    my $index = 0;
    while (scalar(@array) !=0) {
       my $element = shift(@array);
       die unless $index == $element;
       $index++;
    }
};

my $d = sub {
    my @array = @{[ @input_array ]};
    foreach my $index (0.. $#array) {
       my $element = $array[$index];
       die unless $index == $element;
    }
};

my $e = sub {
    my @array = @{[ @input_array ]};
    for (my $index = 0; $index <= $#array; $index++) {
       my $element = $array[$index];
       die unless $index == $element;
    }
};

my $f = sub {
    my @array = @{[ @input_array ]};
    while (my ($index, $element) = each @array) {
       die unless $index == $element;
    }
};

my $count;
timethese($count, {
   '1' => $a,
   '2' => $b,
   '3' => $c,
   '4' => $d,
   '5' => $e,
   '6' => $f,
});

And running this on perl 5, version 24, subversion 1 (v5.24.1) built for x86_64-linux-gnu-thread-multi

I get:

Benchmark: running 1, 2, 3, 4, 5, 6 for at least 3 CPU seconds...
         1:  3 wallclock secs ( 3.16 usr +  0.00 sys =  3.16 CPU) @ 12560.13/s (n=39690)
         2:  3 wallclock secs ( 3.18 usr +  0.00 sys =  3.18 CPU) @ 7828.30/s (n=24894)
         3:  3 wallclock secs ( 3.23 usr +  0.00 sys =  3.23 CPU) @ 6763.47/s (n=21846)
         4:  4 wallclock secs ( 3.15 usr +  0.00 sys =  3.15 CPU) @ 9596.83/s (n=30230)
         5:  4 wallclock secs ( 3.20 usr +  0.00 sys =  3.20 CPU) @ 6826.88/s (n=21846)
         6:  3 wallclock secs ( 3.12 usr +  0.00 sys =  3.12 CPU) @ 5653.53/s (n=17639)

So the 'foreach (@Array)' is about twice as fast as the others. All the others are very similar.

@ikegami also points out that there are quite a few differences in these implimentations other than speed.

1
  • 1
    The comparison $index < $#array should actually be $index <= $#array because $#array is not the length of the array but the last index of it.
    – josch
    Commented Dec 5, 2019 at 6:01
3

In single line to print the element or array.

print $_ for (@array);

NOTE: remember that $_ is internally referring to the element of @array in loop. Any changes made in $_ will reflect in @array; ex.

my @array = qw( 1 2 3 );
for (@array) {
        $_ = $_ *2 ;
}
print "@array";

output: 2 4 6

2

1 is substantially different from 2 and 3, since it leaves the array in tact, whereas the other two leave it empty.

I'd say #3 is pretty wacky and probably less efficient, so forget that.

Which leaves you with #1 and #2, and they do not do the same thing, so one cannot be "better" than the other. If the array is large and you don't need to keep it, generally scope will deal with it (but see NOTE), so generally, #1 is still the clearest and simplest method. Shifting each element off will not speed anything up. Even if there is a need to free the array from the reference, I'd just go:

undef @Array;

when done.

  • NOTE: The subroutine containing the scope of the array actually keeps the array and re-uses the space next time. Generally, that should be fine (see comments).
14
  • @Array = (); does not free the underlying array. Not even going out of scope would do that. If you wanted to free the underlying array, you'd have use undef @Array;.
    – ikegami
    Commented May 7, 2012 at 20:04
  • 2
    Demo; perl -MDevel::Peek -e'my @a; Dump(\@a,1); @a=qw( a b c ); Dump(\@a,1); @a=(); Dump(\@a,1); undef @a; Dump(\@a,1);' 2>&1 | grep ARRAY
    – ikegami
    Commented May 7, 2012 at 20:06
  • WHAT??? I had thought the whole point of GC was once a ref count == 0, the memory involved becomes recyclable. Commented May 7, 2012 at 20:07
  • @ikegami: I see the thing about () vs undef, but if going out of scope does not release the memory used by an array local to that scope, doesn't that make perl a leaking disaster? That can't be true. Commented May 7, 2012 at 20:11
  • They don't leak either. The sub still owns them, and will reuse them the next time the sub is called. Optimised for speed.
    – ikegami
    Commented May 7, 2012 at 20:26

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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