This week's challenges were early and on the easy side, which was appreciated as the holidays loom. The musical interlude this week ignores the challenge tasks in favor of seasonal light jazz; I have Spotify playing "Winter's Songs: A Windham Hill Christmas."

Task 1: Max Words

The Task

You are given an array of sentences. Write a script to return the maximum number of words that appear in a single sentence.

• Example 1:
  • Input: @sentences = ("Hello world", "This is a test", "Perl is great")
  • Output: 4

The Solution

An easy one -- an early Xmas gift? Split each sentence into words and count them, then take the maximum. Completely ignoring all the complexities of punctuation and internationalization, it's a one-liner:

sub maxWords(@sentence)
{
    use List::Util qw/max/;
    return max map { scalar(split(" ", $_)) } @sentence;
}

The only thing mildly tricky here is transforming the list of words into a count. Inside the body of the map block, we're in array context, so split will return a list. Coercing it with scalar gives the count.

Task 2: Validate Coupon

The Task

You are given three arrays, @codes, @names and @status. Write a script to validate codes in the given array. A code is valid when the following conditions are true:

• codes[i] is non-empty and consists only of alphanumeric characters (a-z, A-Z, 0-9) and underscores (_).
• names[i] is one of the following four categories: "electronics", "grocery", "pharmacy", "restaurant".
• status[i] is true.

Return an array of booleans indicating validity: output[i] is true if and only if codes[i], names[i] and status[i] are all valid.

• Example 1:
  • Input:
    • @codes = ("A123", "B_456", "C789", "D@1", "E123")
    • @names = ("electronics", "restaurant", "electronics", "pharmacy", "grocery")
    • @status = ("true", "false", "true", "true", "true")
  • Output: (true, false, true, false, true)

Thoughts

The volume of text for this one was daunting at first glance, but it turns out to be mostly example data and actually quite easy.

The validation is straight-forward. @codes is a regular expression match; @names is a keyword lookup from a dictionary table (hash); and @status is just a string compare.

We'll be operating on parallel arrays. I see two ways of doing it. First, we could use a variable to loop over the indexes. That's going to yield code with a lot of array subscripts. Or second, we could use each_array from List::More::Utils to do the indexing for us. I'm curious which is more efficient.

To the code-sleigh, Rudolph!

Loop with indexed

sub valid($code, $name, $status)
{
    state %ValidName = ( electronics => true, grocery => true,
                         pharmacy => true, restaurant => true );
    my @valid = (true) x $code->@*;

    for my ($i, $c) ( indexed $code->@* )
    {
        $valid[$i] &&= ( $code->[$i] !~ m/[^a-zA-Z0-9_]/ );
        $valid[$i] &&= ( exists $ValidName{$name->[$i]} );
        $valid[$i] &&= $status->[$i] eq "true";
    }
    return \@valid;
}

Notes:

• Passing multiple arrays as subroutine parameters implies using references. We could use traditional prototype attributes to make it possible to pass arrays, but let's not.
• state %ValidName -- These are valid keywords for the @names input array. Using state makes this a static table, initialized only the first time the subroutine is entered.
• @valid -- Our output array, same size as the input array. Assume they're all valid and turn elements false if any check fails.
• indexed -- My favorite recent Perl improvement. Returns both the index and the value from an array during a for loop.
• valid->[$i] &&= ... -- Any failing test will turn the value to false.
• $code->[$i] !~ m/[^a-zA-Z0-9_]/ -- The code has to consist entirely of valid characters, or conversely, it must not match (!~) anything that contains a character other than those. Later I went back to look up exactly what \w and \W mean in Perl regular expressions and realized that I could have used that instead of the character classes.
• exists $ValidName{...} -- Use exists explicitly to return a boolean value. A simple lookup that fails would return undef, and will make the result of the expression undef instead of false. Although undef is treated as false in many contexts, it failed the unit test.
• return \@valid -- Return a reference. This is convenient for the is() function from the Test2::V0 unit testing framework, and returning a reference also improves performance by avoiding an array copy.

Loop with array iterator

sub validEach($code, $name, $status)
{
    state %ValidName = ( electronics => true, grocery => true,
                         pharmacy => true, restaurant => true );
    my @valid;

    use List::MoreUtils qw/each_arrayref/;
    my $ea = each_arrayref($code, $name, $status);
    while ( my ($c, $n, $s) = $ea->() )
    {
        push @valid, ( $c !~ m/[^a-zA-Z0-9_]/ )
                  && ( exists $ValidName{$n}    )
                  && ( $s eq "true"             );
    }
    return \@valid;
}

Notes:

• This is basically the same function, except that the explicit indexing has been replaced by an iterator.
• each_arrayref -- There's an each_array function, but since we have array references, this one is convenient.
• my $ea = ... -- Creates an iterator over the three arrays.
• ea->() -- Call the iterator. ea is the equivalent of a function pointer, and this is function dereference syntax.
• while ( my ($c, $n, $s) = ea->() ) -- Each call to the iterator returns a tuple of the next element from each of the $code, $name, and $status arrays.
• push @valid, ... -- The same three checks as before, but building the list instead of modifying it, because we don't have an index in hand.

Performance check

I think the iterator version is a little cleaner, because it eliminates the clutter of repeated array subscripts. But I was curious how it compared in efficiency, so I set up a quick benchmark using the examples.

It turns out that the explicit indexing is about twice as efficient as the each_arrayref iterator. Still gonna use it, though.

$ perl ch-2.pl -b 100000
             Rate iterator forindex
iterator  72464/s       --     -47%
forindex 136986/s      89%       --

To do the benchmarking, I set up the examples as an array of test cases, and used Benchmark::cmpthese to do a lot of iterations.

sub runBenchmark($repeat)
{
    use Benchmark qw/cmpthese/;

    cmpthese($repeat, {
            forindex => sub {
                for ( @case )
                {
                    valid($_->{codes}, $_->{names}, $_->{status});
                }
            },
            iterator => sub {
                for ( @case )
                {
                    validEach($_->{codes}, $_->{names}, $_->{status});
                }
            },
        });
}

And the input data looks like this:

my @case = (
    { id     => 'Example 1',
      codes  => [ 'A123',        'B_456',      'C789',        'D@1',      'E123' ],
      names  => [ 'electronics', 'restaurant', 'electronics', 'pharmacy', 'grocery' ],
      status => [ 'true',        'false',      'true',        'true',     'true' ],
      expect => [ true, false, true, false, true ],
    },
    { id     => 'Example 2',
      codes  => [ 'Z_9',      'AB_12',       'G01',     'X99',         'test' ],
      names  => [ 'pharmacy', 'electronics', 'grocery', 'electronics', 'unknown' ],
      status => [ 'true',     'true',        'false',   'true',        'true' ],
      expect => [ true, true, false, true, false ],
    },
    { id     => 'Example 3',
      codes  => [ '_123',       '123',         '',            'Coupon_A', 'Alpha' ],
      names  => [ 'restaurant', 'electronics', 'electronics', 'pharmacy', 'grocery' ],
      status => [ 'true',       'true',        'false',       'true',     'true' ],
      expect => [ true, true, false, true, true ],
    },
    { id     => 'Example 4',
      codes  => [ 'ITEM_1',      'ITEM_2',      'ITEM_3',  'ITEM_4' ],
      names  => [ 'electronics', 'electronics', 'grocery', 'grocery' ],
      status => [ 'true',        'true',        'true',    'true' ],
      expect => [ true, true, true, true ],
    },
    { id     => 'Example 5',
      codes  => [ 'CAFE_X',     'ELEC_100',    'FOOD_1',  'DRUG_A',   'ELEC_99' ],
      names  => [ 'restaurant', 'electronics', 'grocery', 'pharmacy', 'electronics' ],
      status => [ 'true',       'true',        'true',    'true',     'false' ],
      expect => [ true, true, true, true, false ],
    },
);

Originally published at Perl Weekly 752

Hi there,

Marlin? Yet another object-oriented programming framework?

There are plenty of choices available already, but this one is worth trying, to be honest. A quick introductory post on the subject by the creator, Toby Inkster is worth reading.

Funky? PSPWA Framework?

It's what happens when a PWA and an SPA have a baby, and that baby is raised by a camel who really cares about user experience. The pattern of combining PWA capabilities with SPA architecture has been around for years. Please find out more about it on the official page.

We also had another development release of Perl v5.43.6 a couple of days ago. The main change is that using goto to jump into the body of a loop or other block construct from outside is no longer permitted.

The TIOBE Index for December 2025 shows positive signs for Perl. However, you shouldn't take it too seriously. That said, I really enjoy reading it.

This is the last edition of the year 2025 for me - the 196th issue overall - so Merry Christmas and Happy New Year 2026 to all the readers. Please stay safe and healthy.

Enjoy rest of the newsletter.

--
Your editor: Mohammad Sajid Anwar.

Announcements

Introducing Marlin

Yet another OOP framework, where most of your constructors and accessors will be implemented in XS.

Funky - The PSPWA Framework

A comprehensive guide to building modern, secure, real-time web applications with Perl and vanilla JavaScript.

Foswi­ki 2.1.10 is re­leased

We are delighted to announce the new release, which includes 57 significant bug fixes compared to the previous 2.1.8 version. This update addresses a range of important issues and enhances the overall stability and performance.

The corner of Gabor

A couple of entries sneaked in by Gabor.

Perl Maven online: Live Open Source contribution

During the holidays, on December 26, there is still an online Perl event to encourage more people to contribute to open source Perl projects. You are invited!

Articles

Masters of Destiny

This post is primarily a philosophical essay. Saif uses a fictional dialogue to express skepticism about over-reliance on AI and "dispassionate algorithms," particularly in fields like medicine that traditionally value human judgment and compassion.

Mid-life upgrade to the MailBox suite completed

This is a high-quality project maintenance post from Mark. It provides valuable insight into the pragmatic considerations of modernising a massive, real-world Perl codebase—decisions about language versions, exception frameworks, and managing breaking changes.

TIOBE Index for December 2025

This is fun index and not to be taken seriously. Perl has +1.33% increase and currently ranked #9.

Perl Advent Calendar

Using Mojolicious::Plugin::Mount to help test your applications

This is an insightful, practical tutorial that presents a clever and elegant pattern for integration testing in Mojolicious. It demonstrates a sophisticated understanding of the Mojolicious ecosystem and provides a viable alternative to the more common approach of mocking HTTP user agents.

Auto-instrument your code with OpenTelemetry

The post introduces a new experimental approach for automatically generating OpenTelemetry traces for Perl code. The traditional options are either 1) use a pre-built instrumentation library, 2) write a custom instrumentation library (hard), or 3) manually instrument your code (tedious). This module offers a fourth, automated path: dynamically instrumenting Perl modules at runtime without modifying their source code.

The Elves Learn to be Lazy

This narrative post is a superb piece of technical communication. It successfully argues that adopting a modern OO framework like Moose isn't about "cool new features" for their own sake, but about practical engineering benefits: safer refactoring, better testing, and more maintainable code.

Safer last-minute hotfixes before Christmas

App::Transpierce is a Perl-based command-line utility for managing configuration changes on production systems. Its core philosophy is to provide a structured, safe workflow for emergency "hotfixes" where direct editing on a live server is unavoidable.

Advent of the Underbar

This is a well-conceived and thoughtfully launched community project. The post successfully makes the case for the podcast's existence by grounding it in the Phileppe's genuine passion and a clear, unmet need for recorded oral history within the Perl ecosystem.

How SUSE is Using Perl

The primary coverage of the talk concerns SUSE's openQA and the Open Build Service. These both lean heavily on Perl and are tools that you may find useful in your own work.

The Gift of Readability

The article is a well-crafted narrative that argues readable code is an act of empathy and professionalism, not just a stylistic preference. It stands out by framing technical advice within a memorable story (the elves at the Present Delivery Network), making the concepts more engaging than a dry style guide.

The Weekly Challenge

The Weekly Challenge by Mohammad Sajid Anwar will help you step out of your comfort-zone. You can even win prize money of $50 by participating in the weekly challenge. We pick one champion at the end of the month from among all of the contributors during the month, thanks to the sponsor Lance Wicks.

The Weekly Challenge - 353

Welcome to a new week with a couple of fun tasks "Max Words" and "Validate Coupon". If you are new to the weekly challenge then why not join us and have fun every week. For more information, please read the FAQ.

RECAP - The Weekly Challenge - 352

Enjoy a quick recap of last week's contributions by Team PWC dealing with the "Match String" and "Binary Prefix" tasks in Perl and Raku. You will find plenty of solutions to keep you busy.

TWC352

Overall solid solutions with correct logic. Task2 is particularly well-implemented. The code demonstrates good Perl idioms and problem-solving skills.

Binary Match

Arne Sommer presents Raku solutions to the weekly challenge #352, demonstrating both practical implementations and exploratory algorithmic thinking. It is worth reading for Raku learners and those interested in different approaches to these challenges.

Five is the one-liest number

Solves the problem correctly, efficiently, and readably. Suitable for Perl beginners to intermediate programmers.

Perl Weekly Challenge: Week 352

Excellent solutions with clear explanations! Your approach shows good understanding of both Raku and Perl idioms.

Triangular Squares

This is an excellent and sophisticated technical write-up. It goes beyond simply providing answers by delving into algorithmic logic, implementing solutions in multiple languages (Perl and J), and including high-quality visual aids for understanding complex array operations.

and here comes Christmas

Impressive polyglot implementation - 5 languages plus SQL variants. Consistent algorithm approach across languages. Good use of language-specific features. Clear code structure and organization

Perl Weekly Challenge 352

This is competition-level algorithmic thinking combined with production-quality code. Truly impressive work!

Doodling with matches and prefixes

This is a solid and practical solution guide for Perl Weekly Challenge #352. Its primary strength lies in the Packy's exploration of the same solution logic across four different programming languages (Raku, Perl, Python, Elixir), providing excellent comparative value for polyglot programmers.

Bits of strings and strings of bits

The solutions are not just correct, but thoughtfully optimized and well-engineered. Clear documentation of design decisions.

The Weekly Challenge #352

This post presents a functional but simplistic approach to solving the two challenges.

Prefix the Matches in Strings of Binary

This is excellent work from a clearly experienced developer. The solutions are clean, maintainable code. Roger demonstrates strong algorithmic thinking and practical implementation skills.

Strings and Binaries

This is a solid, practical implementation of coding challenges that correctly solves the problems. Simon demonstrates good programming fundamentals and language knowledge.

Not So Loopy Digits

This solution demonstrates expert-level understanding of formal language theory and automata. This is PhD-level computer science applied to a coding challenge.

Rakudo

2025.50 Exemplar Poll

Weekly collections

NICEPERL's lists

Great CPAN modules released last week;
MetaCPAN weekly report.

Events

Perl Maven online: Live Open Source contribution

December 26, 2025

Boston.pm - online

January 13, 2025

German Perl/Raku Workshop 2026 in Berlin

March 16-18, 2025

You joined the Perl Weekly to get weekly e-mails about the Perl programming language and related topics.

Want to see more? See the archives of all the issues.

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(C) Copyright Gabor Szabo
The articles are copyright the respective authors.

Weekly Challenge 352

Each week Mohammad S. Anwar sends out The Weekly Challenge, a chance for all of us to come up with solutions to two weekly tasks. My solutions are written in Python first, and then converted to Perl. It's a great way for us all to practice some coding.

Challenge, My solutions

Task 1: Match String

Task

You are given an array of strings.

Write a script to return all strings that are a substring of another word in the given array in the order they occur.

My solution

The Python solution is relatively straight forward. I have a loop that has i as the index and word as the word I are matching. I then check if any words in the words list are a substring (including a complete match) that are not at the same position. If there are, I append it to the matches list. I also do a check to ensure a word does not appear twice.

def match_string(words: list) -> list:
    matches = []

    for i, word in enumerate(words):
        if word in matches:
            continue

        if any(word in other_word for j, other_word in enumerate(words) if i != j):
            matches.append(word)

    return matches

The Perl solution follows the same logic, but does it slightly differently. Perl has a (documented) quirk that calling each on a array (or hash) does not reset the counter when called a second time. I even made a blog post about the dangers of each in Perl. For the Perl solution, I use a foreach loop to find a match.

sub main (@words) {
    my @other_words = @words;
    my @matches = ();

    while ( my ( $i, $word ) = each(@words) ) {
        if ( any { $_ eq $word } @matches ) {
            next;
        }

        my $j = 0;
        foreach my $other_word (@other_words) {
            if ( $i != $j and index( $other_word, $word ) != -1 ) {
                push @matches, $word;
                last;
            }
            $j++;
        }
    }

    say '(' . join( ', ', map { "\"$_\"" } @matches ) . ')';

Examples

$ ./ch-1.py cat cats dog dogcat dogcat rat ratcatdogcat
['cat', 'dog', 'dogcat', 'rat']

$ ./ch-1.py hello hell world wor ellow elloworld
['hell', 'world', 'wor', 'ellow']

$ ./ch-1.py a aa aaa aaaa
['a', 'aa', 'aaa']

$ ./ch-1.py flower flow flight fl fli ig ght
['flow', 'fl', 'fli', 'ig', 'ght']

$ ./ch-1.py car carpet carpenter pet enter pen pent
['car', 'pet', 'enter', 'pen', 'pent']

Task 2: Binary Prefix

Task

You are given an array, @nums, where each element is either 0 or 1.

Define xi as the number formed by taking the first i+1 bits of @nums (from $nums[0] to $nums[i]) and interpreting them as a binary number, with $nums[0] being the most significant bit.

Write a script to return an array @answer where $answer[i] is true if xi is divisible by 5, otherwise false.

My solution

This is the more straight forward of the two tasks. For this task, I have a variable called current_binary that starts with an empty string. For each iteration of nums, I append the value to the current_binary string. I then use int (Python) or oct (Perl) to convert the value to an integer. I then see if it is divisible by five, and append the boolean (string in Perl) to the results list.

def binary_prefix(nums: list) -> list:
    if any(type(n) != int or n not in (0, 1) for n in nums):
        raise ValueError("Input list must contain only 0s and 1s")

    current_binary = ''
    results = []

    for n in nums:
        current_binary += str(n)
        results.append(int(current_binary, 2) % 5 == 0)

    return results

Examples

$ ./ch-2.py 0 1 1 0 0 1 0 1 1 1
[True, False, False, False, False, True, True, False, False, False]

$ ./ch-2.py 1 0 1 0 1 0
[False, False, True, True, False, False]

$ ./ch-2.py 0 0 1 0 1
[True, True, False, False, True]

$ ./ch-2.py 1 1 1 1 1
[False, False, False, True, False]

$ ./ch-2.py 1 0 1 1 0 1 0 0 1 1
[False, False, True, False, False, True, True, True, False, False]

Task 1: Match String

The Task

You are given an array of strings. Write a script to return all strings that are a substring of another word in the given array in the order they occur.

• Example 1:
  • Input: @words = ("cat", "cats", "dog", "dogcat", "dogcat", "rat", "ratcatdogcat")
  • Output: ("cat", "dog", "dogcat", "rat")

The Deep Thoughts

Example 1 implies a couple of constraints. A complete match counts as a substring. Words may be repeated in the input. Repeated words are not duplicated in the output. The output order must match the input order. Noted.

For each word, we'll need to take it out of the list, check for substrings, and then put it back for the next round. A relatively simple way of doing that would be to shift it off the front of the list, do what needs to be done, and then return it by pushing it onto the back.

I don't see much of a way of getting around the idea that every word must be compared to every other word, so we're looking at an O(n²) performance algorithm.

One possibility for reducing the operation count might be to compare a pair of words both ways. If I have $w1 and $w2 in hand, I can check both directions for substring-i-ness. That way, instead of having to loop over the entire NxN matrix, we would only have to loop over the upper or lower triangle of the matrix. It's fewer looping operations, but still the same number of string comparisons. But it would mean more complexity in keeping track of what's been checked, so, meh.

The Code

sub matchString(@words)
{
    use List::Util qw/any/;
    my %seen;
    my @match;
    for ( 1 .. @words )
    {
        my $w = shift @words;
        push @match, $w if ( ! $seen{$w}++ && any { index($_, $w) >= 0  } @words );
        push @words, $w;
    }
    return \@match;
}

Notes:

• Use a hash (%seen) to eliminate duplicates, and coincidentally optimize a little by not searching multiple times.
• The main loop is once per word, so simply count. Normally, I would prefer something obviously tied to the array (like for (@words)), but since I'm changing the array within the loop, I don't want to have to think too hard about whether the iterator remains valid after removing and adding an element.
• index is a cheaper operation than a regular expression match. Benchmarking bears this out -- it's about three times more efficient in my environment and test data.
• List::Util::any stops as soon as something works, so it's cheaper than grep, which would evaluate the entire list every time.

Task 2: Binary Prefix

The Task

You are given an array, @nums, where each element is either 0 or 1.

Define xi as the number formed by taking the first i+1 bits of @nums (from $nums[0] to $nums[i]) and interpreting them as a binary number, with $nums[0] being the most significant bit.

For example: If @nums = (1, 0, 1), then:
x0 = 1 (binary 1)
x1 = 2 (binary 10)
x2 = 5 (binary 101)

For each i, check whether xi is divisible by 5.

Write a script to return an array @answer where $answer[i] is true if xi is divisible by 5, otherwise false.

• Example 1:
  • Input: @nums = (0,1,1,0,0,1,0,1,1,1)
  • Output: (true, false, false, false, false, true, true, false, false, false)

Binary numbers formed (decimal values):

         0:   0  (false)
        01:   1  (false)
       011:   3  (false)
      0110:   6  (false)
     01100:  12  (false)
    011001:  25  ( true)
   0110010:  50  ( true)
  01100101: 101  (false)
 011001011: 203  (false)
0110010111: 407  (false)

The Deep Thoughts

Weird flex, but OK.

This puts me in mind of bit-twiddling with C code, but bit-twiddling in Perl is equally possible. The other alternative is probably to build strings and do binary number conversions by prefixing with '0b'.

I kind of want to do a list-based solution, using map to convert each 0 or 1 to a true or false, but I think that would be obfuscating a pretty simple loop.

The Code

sub bpre(@nums)
{
    my @isFive;
    my $b = 0;

    while ( defined(my $bit = shift @nums) )
    {
        $b = ($b << 1) | $bit;
        push @isFive, ( $b % 5 == 0 );
    }
    return \@isFive;
}

Notes:

• Destroy the input by shifting a 1 or 0 off the left until the list is gone.
• Do bit operations to form a new number.
• Build an answer array consisting of boolean values.

Musical Interlude

The solution to task 1 reminds me of Katy Perry's Hot N Cold -- "You're yes, then you're no. You're in, then you're out."

And for Task 2, Mambo Number 5 is oddly appropriate. "Take one step left and one step right, One to the front and one to the side. Clap your hands once and clap your hands twice, And if it looks like this, then you're doin' it right."

Does the Perl world need another object-oriented programming framework?

To be honest, probably not.

But here’s why you might want to give Marlin a try anyway.

• Most of your constructors and accessors will be implemented in XS and be really, really fast.

• If you accept a few basic principles like “attributes should usually be read-only”, it can be really, really concise to declare a class and its attributes.

An example

  use v5.20.0;
  use experimental qw(signatures);

  # Import useful constants, types, etc.
  use Marlin::Util -all, -lexical;
  use Types::Common -all, -lexical;

  package Person {
    use Marlin
      'given_name!'   => NonEmptyStr,
      'family_name!'  => NonEmptyStr,
      'name_style'    => { enum => [qw/western eastern/], default => 'western' },
      'full_name'     => { is => lazy, builder => true },
      'birth_date?';

    sub _build_full_name ( $self ) {
      return sprintf( '%s %s', uc($self->family_name), $self->given_name )
        if $self->name_style eq 'eastern';
      return sprintf( '%s %s', $self->given_name, $self->family_name );
    }
  }

  package Payable {
    use Marlin::Role
      -requires => [ 'bank\_details' ];

    sub make_payment ( $self ) {
      ...;
    }
  }

  package Employee {
    use Marlin
      -extends => [ 'Person' ],
      -with    => [ 'Payable' ],
      'bank_details!' => HashRef,
      'employee_id!'  => Int,
      'manager?'      => { isa => 'Employee' };
  }

  my $manager = Employee->new(
    given_name    => 'Simon',
    family_name   => 'Lee',
    name_style    => 'eastern',
    employee_id   => 1,
    bank_details  => {},
  );

  my $staff = Employee->new(
    given_name    => 'Lea',
    family_name   => 'Simons',
    employee_id   => 2,
    bank_details  => {},
    manager       => $manager,
  );

  printf(
    "%s's manager is %s.\n",
    $staff->full_name,
    $staff->manager->full_name,
  ) if $staff->has_manager;

Some things you might notice:

• It supports most of the features of Moose… or most of the ones you actually use anyway.

• Declaring an attribute is often as simple as listing it’s name on the use Marlin line.

• It can be followed by some options, but if you’re happy with Marlin’s defaults (read-only attributes), it doesn’t need to be.

• You can use the ! to quickly mark an attribute as required instead of the longer { required => true }.

• You can use ? to request a predicate method instead of the longer { predicate => true }.

Benchmarks

My initial benchmarking shows that Marlin is fast.

Constructors

         Rate   Tiny  Plain    Moo  Moose Marlin   Core
Tiny   1317/s     --    -2%   -48%   -53%   -54%   -72%
Plain  1340/s     2%     --   -47%   -53%   -53%   -72%
Moo    2527/s    92%    89%     --   -11%   -12%   -47%
Moose  2828/s   115%   111%    12%     --    -2%   -40%
Marlin 2873/s   118%   114%    14%     2%     --   -39%
Core   4727/s   259%   253%    87%    67%    65%     --

Only the new Perl core class keyword generates a constructor faster than Marlin’s. And it is significantly faster; there’s no denying that. However, object construction is only part of what you are likely to need.

Accessors

          Rate   Tiny  Moose  Plain   Core    Moo Marlin
Tiny   17345/s     --    -1%    -3%    -7%   -36%   -45%
Moose  17602/s     1%     --    -2%    -6%   -35%   -44%
Plain  17893/s     3%     2%     --    -4%   -34%   -44%
Core   18732/s     8%     6%     5%     --   -31%   -41%
Moo    27226/s    57%    55%    52%    45%     --   -14%
Marlin 31688/s    83%    80%    77%    69%    16%     --

By accessors, I’m talking about not just standard getter and setters, but also predicate methods and clearers. Marlin and Moo both use Class::XSAccessor when possible, giving them a significant lead over the others. Marlin uses some sneaky tricks to squeeze out a little bit of extra performance by creating aliases for parent class methods directly in the child class symbol tables, allowing Perl to bypass a lot of the normal method resolution stuff.

I really expected class to do a lot better than it does. Its readers and writers are basically implemented in pure Perl currently, though I guess there’s scope to improve them in future releases.

Native Traits / Handles Via / Delegations

         Rate   Tiny   Core  Plain  Moose    Moo Marlin
Tiny    675/s     --   -56%   -57%   -59%   -61%   -61%
Core   1518/s   125%     --    -4%    -8%   -13%   -13%
Plain  1581/s   134%     4%     --    -4%    -9%   -10%
Moose  1642/s   143%     8%     4%     --    -5%    -6%
Moo    1736/s   157%    14%    10%     6%     --    -1%
Marlin 1752/s   160%    15%    11%     7%     1%     --

If you don’t know what I mean by native traits, it’s the ability to create small methods like this:

  sub add_language ( $self, $lang ) {
    push $self->languages->@*, $lang;
  }

As part of the attribute definition:

  use Marlin
    languages => {
      is           => 'ro',
      isa          => ArrayRef[Str],
      default      => [],
      handles_via  => 'Array',
      handles      => { add_language => 'push', count_languages => 'count' },
    };

There’s not an awful lot of difference between the performance of most of these, but Marlin slightly wins. Marlin and Moose are also the only frameworks that include this out of the box without needing extension modules.

By the way, that default => [] was not a typo. You can set an empty arrayref or empty hashref as a default, and Marlin will assume you meant something like default => sub { [] }, but it cleverly skips over needing to actually call the coderef (slow), instead creating a reference to a new empty array in XS (fast)!

Combined

         Rate   Tiny  Plain   Core  Moose    Moo Marlin
Tiny    545/s     --   -48%   -56%   -58%   -60%   -64%
Plain  1051/s    93%     --   -16%   -19%   -22%   -31%
Core   1249/s   129%    19%     --    -4%    -8%   -18%
Moose  1304/s   139%    24%     4%     --    -4%   -14%
Moo    1355/s   148%    29%     8%     4%     --   -11%
Marlin 1519/s   179%    45%    22%    17%    12%     --

A realistic bit of code that constructs some objects and calls a bunch of accessors and delegations on them. Marlin performs very well.

Lexical accessors and private attributes

Marlin has first class support for lexical methods!

  use v5.42.0;

  package Widget {
    use Marlin
      name        => { isa => Str },
      internal_id => { reader => 'my internal_id', storage => 'PRIVATE' };

    ...

    printf "%d: %s\n", $w->&internal_id, $w->name, 
  }

  # dies because internal_id is lexically scoped
  Widget->new->&internal_id;

Support for the ->& operator was added in Perl 5.42. On older Perls (from Perl 5.12 onwards), lexical methods are still supported but you need to use function call syntax (internal_id($w)).

The storage => "PRIVATE" hint tells Marlin to use inside-out storage for that attribute, meaning that trying to access the internal_id by poking into the object’s internals ($obj->{internal_id}) won’t work.

This gives you true private attributes.

On Perl 5.18 and above, you can of course declare lexical methods using the normal my sub foo syntax, so you have private attributes as well as private methods.

Constant attributes

  package Person {
    use Marlin
      name         => { isa => Str, required => true },
      species_name => { isa => Str, constant => "Homo sapiens" };
  }

Constant attributes are declared like regular attributes, but are always very read-only and illegal to pass to the constructor.

Like other attributes, they support delegations, provided the delegated method isn’t one which could change the value.

Perl version support

Although some of the lexical features need newer versions of Perl, Marlin runs on Perl versions as old as 5.8.8.

Future directions

Some ideas I’ve had:

• If Moose is loaded, create meta object protocol stuff for Marlin classes and roles, like Moo does.