Peter Shangov > MooseX-Params-0.010 > MooseX::Params

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Module Version: 0.010   Source  

NAME ^

MooseX::Params - Subroutine signature declaration via attributes

VERSION ^

version 0.010

SYNOPSIS ^

  # use Moose types for validation
  # positional arguments are by default required
  sub add :Args(Int first, Int second) {
    return $_{first} + $_{second};
  }

  say add(2, 3); # 5
  say add(2);    # error

  # @_ still works: you can ignore %_ if you want to
  sub add2 :Args(Int first, Int second) {
    my ($first, $second) = @_;
    return $first + $second;
  }

  say add2(2, 3); # 5

  # '&' before a type constraint enables coercion
  subtype 'HexNum', as 'Str', where { /[a-f0-9]/i };
  coerce 'Int', from 'HexNum', via { hex $_ };

  sub add3 :Args(&Int first, &Int second) {
    return $_{first} + $_{second};
  }

  say add3('A', 'B'); # 21

  # slurpy arguments consume the remainder of @_
  sub sum :Args(ArrayRef *values) {
    my $sum = 0;
    my @values = @{$_{values}};

    foreach my $value (@values) {
      $sum += $value;
    }
    return $sum;
  }

  say sum(2, 3, 4, 5); # 14

  # 'all' is optional:
  # if not present search the text within a file and return 1 if found, 0 if not
  # if present search the text and return number of lines in which text is found
  sub search :Args(text, fh, all?) {
    my $cnt = 0;

    while (my $line = $_{fh}->getline) {
      if ( index($line, $_{text}) > -1 ) {
        return 1 if not $_{all};
        $cnt++;
      }
    }

    return $cnt;
  }

  # named arguments
  sub foo :Args(a, :b) {
    return $_{a} + $_{b} * 2;
  }

  # say foo( 3, b => 2 ); # 7
  # say foo(4, 9);        # error
  # say foo(2);           # error
  # say foo(2, 3, 4);     # error

  # parameters are immutable, assign to a variable to edit
  sub trim :Args(Str string) {
      my $string = $_{string};
      $string =~ s/^\s*//;
      $string =~ s/\s*$//;
      return $string;
  }

  # parameters can have simple defaults
  sub find_clothes :Args(:size = 'medium', :color = 'white') { ... }

  # or builders for more complex tasks
  sub find_clothes :Args(
    :size   = _build_param_size,
    :color  = _build_param_color,
    :height = 170 )
  { ... }

  sub _build_param_color {
      return (qw(red green blue))[ int( rand 3 ) ];
  }

  # you can access all other parameters within a builder
  sub _build_param_size {
      return $_{height} > 200 ? 'large' : 'medium';
  }

  # preprocess @_ with buildargs
  sub process_template
    :Args(input, output, params)
    :BuildArgs(_buildargs_process_template)
  {
    say "open $_{input}";
    say "replace " . Dumper $_{params};
    say "save $_{output}";
  }

  # if 'output' is not provided, deduct it from input filename
  sub _buildargs_process_template {
    if (@_ == 2) {
      my ($input, $params) = @_;
      my $output = $input;
      substr($output, -4, 4, "html");
      return $input, $output, $params;
    } else {
      return @_;
    }
  }

  my %data = (
    fname => "Foo",
    lname => "Bar",
  );

  process_template("index.tmpl", \%data);
  # open index.tmpl
  # replace {"lname" => "Bar", "fname" => "Foo"}
  # save index.html

  process_template("from.tmpl", "to.html", \%data);
  # open from.tmpl
  # replace {"lname" => "Bar", "fname" => "Foo"}
  # save to.html

  # additional validation with checkargs
  sub process_person
    :Args(:first_name!, :last_name!, :country!, :ssn?)
    :CheckArgs # shortcut for :CheckArgs(_checkargs_${subname})
  { ... }

  sub _checkargs_process_person {
    if ( $_{country} eq 'USA' ) {
      die 'All US residents must have an SSN' unless $_{ssn};
    }
  }

  # return value validation
  sub sum :Args(a, b) :Returns(Num) { ... }

  # validate non-scalar return values
  sub get_data :Returns(Array) { qw(foo bar baz) }
  my ($foo, $bar, $baz) = get_data();

  # force special behavior in sclar context
  sub get_winners :Returns(Array) :ReturnsScalar(First) {
    my @ordered_winners = ...;
    return @ordered_winners;
  }

  my $first_place = get_winners();

  # in a class
  package User;

  use Moose;
  use MooseX::Params;
  use DateTime;

  extends 'Person';

  has 'password' => (
    is  => 'rw',
    isa => 'Str',
  );

  has 'last_login' => (
    is      => 'rw',
    isa     => 'DateTime',
  );

  # note the shortcut invocant syntax
  sub login :Args(self: Str pw) :Returns(Bool) {
    return 0 if $_{pw} ne $_{self}->password;

    $_{self}->last_login( DateTime->now() );

    return 1;
  }

DESCRIPTION ^

This module provides an attributes-based interface for parameter processing in Perl 5. For the original rationale see http://mechanicalrevolution.com/blog/parameter_apocalypse.html.

The proposed interface is based on three cornerstone propositions:

USE WITH CARE ^

This is still an experimental module and is subject to backwards incompatible changes. It is barely tested and most certainly has serious lurking bugs, has a lot of room for performance optimizations, and its error reporting could be vastly improved.

BACKWARDS INCOMPATIBLE CHANGES ^

Version 0.005 removes the interface based on the method keyword, and retains only the attributes-based interface. Also, $self is no longer localized inside methods, you must use $_{self} instead.

SIGNATURE SYNTAX ^

Signatures are declared with the :Args attribute. All parsed parameters are made available inside your subroutine within the special %_ hash. All elements of %_ are read-only, and an attempt to modify them will throw an exception. An attempt to use a hash element which is not a valid parameter name for this subroutine will also throw an exception. @_ is not affected by the use of signatures, so you can still use it to manually unpack arguments if you want to.

Parameter names

Parameter names can by any valid perl identifiers, and they are separated by commas.

  sub rank :Args(first, second, third) {
    say "$_{first} is first, $_{second} is second, and $_{third} is third";
  }

Invocant

Method signatures can specify their invocant as the first parameter, followed by a colon:

  sub rank :Args(self: first, second, third) {
    my $competition = $_{self}->competition;
    ...
  }

Type constraints

Moose type constraints may be used for validation.

  sub rank :Args(Str first, Str second, Str third) { ... }

An ampersand before a type enables coercion for this type.

  subtype 'Name' ...;

  coerce 'Name', from 'Str', via { ... };

  sub rank :Args(&Name first, &Name second, &Name third) { ... }

Positional and named parameters

Parameters are by default positional.

  sub rank :Args(first, second, third) { ... }
  # rank('Peter', 'George', 'John')

Named parameters are prefixed by a colon.

  sub rank :Args(:first, :second, :third) { ... }
  # rank( first => 'Peter', second => 'George', third => 'John')

Named parameters may be passed by one name and accessed by another.

  sub rank :Args(:gold(first), :silver(second), :bronze(third)) {
    say "$_{first} is first, $_{second} is second, and $_{third} is third";
  }
  # rank( gold => 'Peter', silver => 'George', bronze => 'John')

Positional and named parameters may be mixed, but positional parameters must come first.

  sub rank :Args(first, :second, :third) {
    say "$_{first} is first, $_{second} is second, and $_{third} is third";
  }
  # rank( 'Peter', second => 'George', third => 'John')

Required parameters

An exclamation mark (!) after the name denotes a required parameter, and a question mark (?) denotes an optional parameter.

  sub rank :Args(first!, second?, third?) { ... }

Positional parameters are by default required, and named parameters are by default optional.

Slurpy parameters

A parameter prefixed by an asterisk (*) is slurpy, i.e. it consumes the remainder of the argument list. Slurpy parameters must come last in the signature.

  sub rank :Args(ArrayRef *winners) {
    say "$_{winners}[0] is first, $_{winners}[1] is second, and $_{winners}[2] is third";
  }

Default values

A parameter may be given a simple default value, which can be either a quoted string or an unsigned integer.

  sub rank :Args(first = 'Peter', second = 'George', third = 'John') { ... }

You may use either single or double quotes to quote a string, but they will always be interpreted as if single quotes were used.

Builders

Where a default value is not sufficient, parameters may specify builders instead. A builder is a subroutine whose return value will be used as default value for the parameter.

  sub rank :Args(ArrayRef *winners = calculate_winners) { ... }

  sub calculate_winners { ... }

The name of the builder may be optionally followed by a pair of parenthesis.

  sub rank :Args(ArrayRef *winners = calculate_winners()) { ... }

All builders are executed lazily, i.e. the first time the parameter is accessed. If a parameter name is followed by an equal sign, but neither a default value nor a builder is specified, it is assumed that the parameter has a builder named _build_param_${name}. In this case the equal sign may also be placed before the name of the parameter.

  sub rank :Args(ArrayRef *winners=) { ... }
  # is equivalent to
  sub rank :Args(ArrayRef =*winners) { ... }
  # is equivalent to
  sub rank :Args(ArrayRef *winners = _build_param_winners) { ... }

  sub _build_param_winners { ... }

Within a parameter builder, you can access all other parameters in the %_ hash.

  sub connect :Args(=:dbh, :host, :port, :database) { ... }

  sub _build_param_dbh {
    return DBI->connect("dbi:mysql:host=$_{host};port=$_{port};database=$_{database}");
  }

BUILDARGS AND CHECKARGS ^

BuildArgs

The BuildArgs attribute allows you to specify a subroutine that will be used to preprocess your arguments before they are validated against the supplied signature. It can be used as to create poor man's multimethods by coercing different types of arguments to a single signature. It is somewhat similar to what Moose's BUILDARGS does for class constructors.

  sub rank
    :Args(:first :second :third)
    :BuildArgs(_buildargs_rank)
  { ... }

  # allow positional parameters as well
  sub _buildargs_rank {
    if (@_ == 3) {
      return first => $_[0], second => $_[1], third => $_[2];
    } else {
      return @_;
    }
  }

If BuildArgs is specified without a subroutine name, _buildargs_${subname} will be assumed.

  sub rank :Args(...) :BuildArgs { ... }
  # is equivalent to
  sub rank :Args(...) :BuildArgs(_buildargs_rank) { ... }

CheckArgs

The CheckArgs attribute allows you to specify a subroutine that will be used to perform additional validation after the arguments are validated against the supplied signature. It can be used to perform more complex validations that cannot be expressed in a simple signature. It is somewhat similar to what Moose's BUILD does for class constructors. Inside a CheckArgs subroutine you can access the processed parameters in the %_ hash.

  sub rank
    :Args(:first :second :third)
    :CheckArgs(_checkargs_rank)
  { ... }

  # make sure names do not repeat
  sub _checkargs_rank {
    if (
      ($_{first}  eq $_{second}) or
      ($_{first}  eq $_{third} ) or
      ($_{second} eq $_{third} )
    ) { die "One player can only take one place!";  }
  }

If CheckArgs is specified without a subroutine name, _checkargs_${subname} will be assumed.

  sub rank :Args(...) :CheckArgs { ... }
  # is equivalent to
  sub rank :Args(...) :CheckArgs(_checkargs_rank) { ... }

RETURN VALUE VALIDATION ^

Returns

MooseX::Params provids a basic mechanism for return value validation via the Returns attribute.

 sub add :Args(a, b) :Returns(Num) { return $_{a} + $_{b} }
 my $five = add(2,3);

Any Moose type name may be used as an arbument to Returns. If your subroutine returns a list of values, you will need to use the special parametric types Array and Hash. They behave identically to ArrayRef and HashRef, except that they work with lists instead of references:

  sub myreverse :Args(*items) :Returns(Array) { return reverse @{ $_{items} } }
  my @list = qw(foo bar baz);
  my @reversed = myreverse(@list);

Note that wantarray inside subroutines that use Returns will always return true (see below).

ReturnsScalar

Return value validation does not play well with context magic. If you return different values depending on context, validation will break. Therefore, subroutines that use Returns are always evaluated in list context to obrain their return value. The ResultScalar attribute allows you to explicitly change how your subroutine will behave in scalar context. It accepts one of four options:

Count (default)

In scalar context return the number of items in the return value list.

First

In scalar context return the first item in the return value list.

Last

In scalar context return the last item in the return value list.

ArrayRef

In scalar context return a reference to the return value list.

  sub results :Returns(Array[MyApp::Object]) :ReturnsScalar(ArrayRef) { ... }

META CLASSES ^

MooseX::Params provides method and parameter metaroles, please see their sourcecode for details:

TODO ^

Whether or not these features will be implemented depends mostly on the community response to the proposed API. Currently the best way to contribute to this module would be to provide feedback and commentary - the Moose mailing list will be a good place for this.

BUGS ^

Plenty. Some of the known ones are:

SEE ALSO ^

AUTHOR ^

Peter Shangov <pshangov@yahoo.com>

COPYRIGHT AND LICENSE ^

This software is copyright (c) 2012 by Peter Shangov.

This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.

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