package Class::Accessor::Grouped;
use strict;
use warnings;
use Carp ();
use Scalar::Util ();
use MRO::Compat;
our $VERSION = '0.10002';
$VERSION = eval $VERSION if $VERSION =~ /_/; # numify for warning-free dev releases
# when changing minimum version don't forget to adjust L</PERFORMANCE> and
# the Makefile.PL as well
our $__minimum_xsa_version;
BEGIN {
$__minimum_xsa_version = '1.11';
}
our $USE_XS;
# the unless defined is here so that we can override the value
# before require/use, *regardless* of the state of $ENV{CAG_USE_XS}
$USE_XS = $ENV{CAG_USE_XS}
unless defined $USE_XS;
# Yes this method is undocumented
# Yes it should be a private coderef like all the rest at the end of this file
# No we can't do that (yet) because the DBIC-CDBI compat layer overrides it
# %$*@!?&!&#*$!!!
sub _mk_group_accessors {
my($self, $maker, $group, @fields) = @_;
my $class = Scalar::Util::blessed $self || $self;
no strict 'refs';
no warnings 'redefine';
# So we don't have to do lots of lookups inside the loop.
$maker = $self->can($maker) unless ref $maker;
foreach (@fields) {
if( $_ eq 'DESTROY' ) {
Carp::carp("Having a data accessor named DESTROY in ".
"'$class' is unwise.");
}
my ($name, $field) = (ref $_)
? (@$_)
: ($_, $_)
;
my $alias = "_${name}_accessor";
for my $meth ($name, $alias) {
# the maker may elect to not return anything, meaning it already
# installed the coderef for us (e.g. lack of Sub::Name)
my $cref = $self->$maker($group, $field, $meth)
or next;
my $fq_meth = "${class}::${meth}";
*$fq_meth = Sub::Name::subname($fq_meth, $cref);
#unless defined &{$class."\:\:$field"}
}
}
};
# coderef is setup at the end for clarity
my $gen_accessor;
=head1 NAME
Class::Accessor::Grouped - Lets you build groups of accessors
=head1 SYNOPSIS
=head1 DESCRIPTION
This class lets you build groups of accessors that will call different
getters and setters.
=head1 METHODS
=head2 mk_group_accessors
=over 4
=item Arguments: $group, @fieldspec
Returns: none
=back
Creates a set of accessors in a given group.
$group is the name of the accessor group for the generated accessors; they
will call get_$group($field) on get and set_$group($field, $value) on set.
If you want to mimic Class::Accessor's mk_accessors $group has to be 'simple'
to tell Class::Accessor::Grouped to use its own get_simple and set_simple
methods.
@fieldspec is a list of field/accessor names; if a fieldspec is a scalar
this is used as both field and accessor name, if a listref it is expected to
be of the form [ $accessor, $field ].
=cut
sub mk_group_accessors {
my ($self, $group, @fields) = @_;
$self->_mk_group_accessors('make_group_accessor', $group, @fields);
return;
}
=head2 mk_group_ro_accessors
=over 4
=item Arguments: $group, @fieldspec
Returns: none
=back
Creates a set of read only accessors in a given group. Identical to
L</mk_group_accessors> but accessors will throw an error if passed a value
rather than setting the value.
=cut
sub mk_group_ro_accessors {
my($self, $group, @fields) = @_;
$self->_mk_group_accessors('make_group_ro_accessor', $group, @fields);
}
=head2 mk_group_wo_accessors
=over 4
=item Arguments: $group, @fieldspec
Returns: none
=back
Creates a set of write only accessors in a given group. Identical to
L</mk_group_accessors> but accessors will throw an error if not passed a
value rather than getting the value.
=cut
sub mk_group_wo_accessors {
my($self, $group, @fields) = @_;
$self->_mk_group_accessors('make_group_wo_accessor', $group, @fields);
}
=head2 make_group_accessor
=over 4
=item Arguments: $group, $field, $method
Returns: \&accessor_coderef ?
=back
Called by mk_group_accessors for each entry in @fieldspec. Either returns
a coderef which will be installed at C<&__PACKAGE__::$method>, or returns
C<undef> if it elects to install the coderef on its own.
=cut
sub make_group_accessor { $gen_accessor->('rw', @_) }
=head2 make_group_ro_accessor
=over 4
=item Arguments: $group, $field, $method
Returns: \&accessor_coderef ?
=back
Called by mk_group_ro_accessors for each entry in @fieldspec. Either returns
a coderef which will be installed at C<&__PACKAGE__::$method>, or returns
C<undef> if it elects to install the coderef on its own.
=cut
sub make_group_ro_accessor { $gen_accessor->('ro', @_) }
=head2 make_group_wo_accessor
=over 4
=item Arguments: $group, $field, $method
Returns: \&accessor_coderef ?
=back
Called by mk_group_wo_accessors for each entry in @fieldspec. Either returns
a coderef which will be installed at C<&__PACKAGE__::$method>, or returns
C<undef> if it elects to install the coderef on its own.
=cut
sub make_group_wo_accessor { $gen_accessor->('wo', @_) }
=head2 get_simple
=over 4
=item Arguments: $field
Returns: $value
=back
Simple getter for hash-based objects which returns the value for the field
name passed as an argument.
=cut
sub get_simple {
return $_[0]->{$_[1]};
}
=head2 set_simple
=over 4
=item Arguments: $field, $new_value
Returns: $new_value
=back
Simple setter for hash-based objects which sets and then returns the value
for the field name passed as an argument.
=cut
sub set_simple {
return $_[0]->{$_[1]} = $_[2];
}
=head2 get_inherited
=over 4
=item Arguments: $field
Returns: $value
=back
Simple getter for Classes and hash-based objects which returns the value for
the field name passed as an argument. This behaves much like
L<Class::Data::Accessor> where the field can be set in a base class,
inherited and changed in subclasses, and inherited and changed for object
instances.
=cut
sub get_inherited {
my $class;
if ( defined( $class = Scalar::Util::blessed $_[0] ) ) {
if (Scalar::Util::reftype $_[0] eq 'HASH') {
return $_[0]->{$_[1]} if exists $_[0]->{$_[1]};
}
else {
Carp::croak('Cannot get inherited value on an object instance that is not hash-based');
}
}
else {
$class = $_[0];
}
no strict 'refs';
no warnings 'uninitialized';
my $cag_slot = '::__cag_'. $_[1];
return ${$class.$cag_slot} if defined(${$class.$cag_slot});
# we need to be smarter about recalculation, as @ISA (thus supers) can very well change in-flight
my $cur_gen = mro::get_pkg_gen ($class);
if ( $cur_gen != ${$class.'::__cag_pkg_gen__'} ) {
@{$class.'::__cag_supers__'} = $_[0]->get_super_paths;
${$class.'::__cag_pkg_gen__'} = $cur_gen;
}
for (@{$class.'::__cag_supers__'}) {
return ${$_.$cag_slot} if defined(${$_.$cag_slot});
};
return undef;
}
=head2 set_inherited
=over 4
=item Arguments: $field, $new_value
Returns: $new_value
=back
Simple setter for Classes and hash-based objects which sets and then returns
the value for the field name passed as an argument. When called on a hash-based
object it will set the appropriate hash key value. When called on a class, it
will set a class level variable.
B<Note:>: This method will die if you try to set an object variable on a non
hash-based object.
=cut
sub set_inherited {
if (defined Scalar::Util::blessed $_[0]) {
if (Scalar::Util::reftype $_[0] eq 'HASH') {
return $_[0]->{$_[1]} = $_[2];
} else {
Carp::croak('Cannot set inherited value on an object instance that is not hash-based');
};
} else {
no strict 'refs';
return ${$_[0].'::__cag_'.$_[1]} = $_[2];
};
}
=head2 get_component_class
=over 4
=item Arguments: $field
Returns: $value
=back
Gets the value of the specified component class.
__PACKAGE__->mk_group_accessors('component_class' => 'result_class');
$self->result_class->method();
## same as
$self->get_component_class('result_class')->method();
=cut
sub get_component_class {
return $_[0]->get_inherited($_[1]);
};
=head2 set_component_class
=over 4
=item Arguments: $field, $class
Returns: $new_value
=back
Inherited accessor that automatically loads the specified class before setting
it. This method will die if the specified class could not be loaded.
__PACKAGE__->mk_group_accessors('component_class' => 'result_class');
__PACKAGE__->result_class('MyClass');
$self->result_class->method();
=cut
sub set_component_class {
if ($_[2]) {
local $^W = 0;
require Class::Inspector;
if (Class::Inspector->installed($_[2]) && !Class::Inspector->loaded($_[2])) {
eval "require $_[2]";
Carp::croak("Could not load $_[1] '$_[2]': ", $@) if $@;
};
};
return $_[0]->set_inherited($_[1], $_[2]);
};
=head2 get_super_paths
Returns a list of 'parent' or 'super' class names that the current class inherited from.
=cut
sub get_super_paths {
return @{mro::get_linear_isa( ref($_[0]) || $_[0] )};
};
=head1 PERFORMANCE
To provide total flexibility L<Class::Accessor::Grouped> calls methods
internally while performing get/set actions, which makes it noticeably
slower than similar modules. To compensate, this module will automatically
use the insanely fast L<Class::XSAccessor> to generate the C<simple>-group
accessors if this module is available on your system.
=head2 Benchmark
This is the result of a set/get/set loop benchmark on perl 5.12.1 with
thread support, showcasing most popular accessor builders: L<Moose>, L<Mouse>,
L<Moo>, L<CAF|Class::Accessor::Fast>, L<CAF_XS|Class::Accessor::Fast::XS>,
L<XSA|Class::XSAccessor>, and L<CAF_XSA|Class::XSAccessor::Compat>:
Rate CAG moOse CAF moUse moo HANDMADE CAF_XS moUse_XS moo_XS CAF_XSA XSA CAG_XS
CAG 169/s -- -21% -24% -32% -32% -34% -59% -63% -67% -67% -67% -67%
moOse 215/s 27% -- -3% -13% -13% -15% -48% -53% -58% -58% -58% -58%
CAF 222/s 31% 3% -- -10% -10% -13% -46% -52% -57% -57% -57% -57%
moUse 248/s 46% 15% 11% -- -0% -3% -40% -46% -52% -52% -52% -52%
moo 248/s 46% 15% 11% 0% -- -3% -40% -46% -52% -52% -52% -52%
HANDMADE 255/s 50% 18% 14% 3% 3% -- -38% -45% -50% -51% -51% -51%
CAF_XS 411/s 143% 91% 85% 66% 66% 61% -- -11% -20% -20% -21% -21%
moUse_XS 461/s 172% 114% 107% 86% 86% 81% 12% -- -10% -11% -11% -11%
moo_XS 514/s 204% 139% 131% 107% 107% 102% 25% 12% -- -0% -1% -1%
CAF_XSA 516/s 205% 140% 132% 108% 108% 103% 26% 12% 0% -- -0% -0%
XSA 519/s 206% 141% 133% 109% 109% 104% 26% 13% 1% 0% -- -0%
CAG_XS 519/s 206% 141% 133% 109% 109% 104% 26% 13% 1% 0% 0% --
Benchmark program is available in the root of the
L<repository|http://search.cpan.org/dist/Class-Accessor-Grouped/>:
=head2 Notes on Class::XSAccessor
You can force (or disable) the use of L<Class::XSAccessor> before creating a
particular C<simple> accessor by either manipulating the global variable
C<$Class::Accessor::Grouped::USE_XS> to true or false (preferably with
L<localization|perlfunc/local>, or you can do so before runtime via the
C<CAG_USE_XS> environment variable.
Since L<Class::XSAccessor> has no knowledge of L</get_simple> and
L</set_simple> this module does its best to detect if you are overriding
one of these methods and will fall back to using the perl version of the
accessor in order to maintain consistency. However be aware that if you
enable use of C<Class::XSAccessor> (automatically or explicitly), create
an object, invoke a simple accessor on that object, and B<then> manipulate
the symbol table to install a C<get/set_simple> override - you get to keep
all the pieces.
=head1 AUTHORS
Matt S. Trout <mst@shadowcatsystems.co.uk>
Christopher H. Laco <claco@chrislaco.com>
=head1 CONTRIBUTORS
Caelum: Rafael Kitover <rkitover@cpan.org>
groditi: Guillermo Roditi <groditi@cpan.org>
Jason Plum <jason.plum@bmmsi.com>
ribasushi: Peter Rabbitson <ribasushi@cpan.org>
=head1 COPYRIGHT & LICENSE
Copyright (c) 2006-2010 Matt S. Trout <mst@shadowcatsystems.co.uk>
This program is free software; you can redistribute it and/or modify
it under the same terms as perl itself.
=cut
########################################################################
########################################################################
########################################################################
#
# Here be many angry dragons
# (all code is in private coderefs since everything inherits CAG)
#
########################################################################
########################################################################
BEGIN {
die "Huh?! No minimum C::XSA version?!\n"
unless $__minimum_xsa_version;
local $@;
my $err;
$err = eval { require Sub::Name; 1; } ? undef : do {
delete $INC{'Sub/Name.pm'}; # because older perls suck
$@;
};
*__CAG_NO_SUBNAME = $err
? sub () { $err }
: sub () { 0 }
;
$err = eval {
require Class::XSAccessor;
Class::XSAccessor->VERSION($__minimum_xsa_version);
require Sub::Name;
1;
} ? undef : do {
delete $INC{'Sub/Name.pm'}; # because older perls suck
delete $INC{'Class/XSAccessor.pm'};
$@;
};
*__CAG_NO_CXSA = $err
? sub () { $err }
: sub () { 0 }
;
*__CAG_BROKEN_GOTO = ($] < '5.008009')
? sub () { 1 }
: sub () { 0 }
;
*__CAG_UNSTABLE_DOLLARAT = ($] < '5.013002')
? sub () { 1 }
: sub () { 0 }
;
*__CAG_TRACK_UNDEFER_FAIL = (
$INC{'Test/Builder.pm'} || $INC{'Test/Builder2.pm'}
and
$0 =~ m|^ x?t / .+ \.t $|x
) ? sub () { 1 }
: sub () { 0 }
;
}
# Autodetect unless flag supplied
my $xsa_autodetected;
if (! defined $USE_XS) {
$USE_XS = __CAG_NO_CXSA ? 0 : 1;
$xsa_autodetected++;
}
my $maker_templates = {
rw => {
xs_call => 'accessors',
pp_code => sub {
my $set = "set_$_[0]";
my $get = "get_$_[0]";
my $field = $_[1];
$field =~ s/'/\\'/g;
"
\@_ != 1
? shift->$set('$field', \@_)
: shift->$get('$field')
"
},
},
ro => {
xs_call => 'getters',
pp_code => sub {
my $get = "get_$_[0]";
my $field = $_[1];
$field =~ s/'/\\'/g;
"
\@_ == 1
? shift->$get('$field')
: do {
my \$caller = caller;
my \$class = ref \$_[0] || \$_[0];
Carp::croak(\"'\$caller' cannot alter the value of '$field' \".
\"(read-only attributes of class '\$class')\");
}
"
},
},
wo => {
xs_call => 'setters',
pp_code => sub {
my $set = "set_$_[0]";
my $field = $_[1];
$field =~ s/'/\\'/g;
"
\@_ != 1
? shift->$set('$field', \@_)
: do {
my \$caller = caller;
my \$class = ref \$_[0] || \$_[0];
Carp::croak(\"'\$caller' cannot access the value of '$field' \".
\"(write-only attributes of class '\$class')\");
}
"
},
},
};
my ($accessor_maker_cache, $no_xsa_warned_classes);
# can't use pkg_gen to track this stuff, as it doesn't
# detect superclass mucking
my $original_simple_getter = __PACKAGE__->can ('get_simple');
my $original_simple_setter = __PACKAGE__->can ('set_simple');
# Note!!! Unusual signature
$gen_accessor = sub {
my ($type, $class, $group, $field, $methname) = @_;
if (my $c = Scalar::Util::blessed( $class )) {
$class = $c;
}
# When installing an XSA simple accessor, we need to make sure we are not
# short-circuiting a (compile or runtime) get_simple/set_simple override.
# What we do here is install a lazy first-access check, which will decide
# the ultimate coderef being placed in the accessor slot
#
# Also note that the *original* class will always retain this shim, as
# different branches inheriting from it may have different overrides.
# Thus the final method (properly labeled and all) is installed in the
# calling-package's namespace
if ($USE_XS and $group eq 'simple') {
die sprintf( "Class::XSAccessor requested but not available:\n%s\n", __CAG_NO_CXSA )
if __CAG_NO_CXSA;
my ($expected_cref, $cached_implementation);
my $ret = $expected_cref = sub {
my $current_class = Scalar::Util::blessed( $_[0] ) || $_[0];
# $cached_implementation will be set only if the shim got
# 'around'ed, in which case it is handy to avoid re-running
# this block over and over again
my $resolved_implementation = $cached_implementation->{$current_class} || do {
if (
$current_class->can('get_simple') == $original_simple_getter
&&
$current_class->can('set_simple') == $original_simple_setter
) {
# nothing has changed, might as well use the XS crefs
#
# note that by the time this code executes, we already have
# *objects* (since XSA works on 'simple' only by definition).
# If someone is mucking with the symbol table *after* there
# are some objects already - look! many, shiny pieces! :)
#
# The weird breeder thingy is because XSA does not have an
# interface returning *just* a coderef, without installing it
# anywhere :(
Class::XSAccessor->import(
replace => 1,
class => '__CAG__XSA__BREEDER__',
$maker_templates->{$type}{xs_call} => {
$methname => $field,
},
);
__CAG__XSA__BREEDER__->can($methname);
}
else {
if (! $xsa_autodetected and ! $no_xsa_warned_classes->{$current_class}++) {
# not using Carp since the line where this happens doesn't mean much
warn 'Explicitly requested use of Class::XSAccessor disabled for objects of class '
. "'$current_class' inheriting from '$class' due to an overriden get_simple and/or "
. "set_simple\n";
}
do {
# that's faster than local
$USE_XS = 0;
my $c = $gen_accessor->($type, $class, 'simple', $field, $methname);
$USE_XS = 1;
$c;
};
}
};
# if after this shim was created someone wrapped it with an 'around',
# we can not blindly reinstall the method slot - we will destroy the
# wrapper. Silently chain execution further...
if ( !$expected_cref or $expected_cref != $current_class->can($methname) ) {
# there is no point in re-determining it on every subsequent call,
# just store for future reference
$cached_implementation->{$current_class} ||= $resolved_implementation;
# older perls segfault if the cref behind the goto throws
# http://rt.perl.org/rt3/Public/Bug/Display.html?id=35878
return $resolved_implementation->(@_) if __CAG_BROKEN_GOTO;
goto $resolved_implementation;
}
if (__CAG_TRACK_UNDEFER_FAIL) {
my $deferred_calls_seen = do {
no strict 'refs';
\%{"${current_class}::__cag_deferred_xs_shim_invocations"}
};
my @cframe = caller(0);
if (my $already_seen = $deferred_calls_seen->{$cframe[3]}) {
Carp::carp (
"Deferred version of method $cframe[3] invoked more than once (originally "
. "invoked at $already_seen). This is a strong indication your code has "
. 'cached the original ->can derived method coderef, and is using it instead '
. 'of the proper method re-lookup, causing performance regressions'
);
}
else {
$deferred_calls_seen->{$cframe[3]} = "$cframe[1] line $cframe[2]";
}
}
# install the resolved implementation into the code slot so we do not
# come here anymore (hopefully)
# since XSAccessor was available - so is Sub::Name
{
no strict 'refs';
no warnings 'redefine';
my $fq_name = "${current_class}::${methname}";
*$fq_name = Sub::Name::subname($fq_name, $resolved_implementation);
# need to update what the shim expects too *in case* its
# ->can was cached for some moronic reason
$expected_cref = $resolved_implementation;
Scalar::Util::weaken($expected_cref);
}
# older perls segfault if the cref behind the goto throws
# http://rt.perl.org/rt3/Public/Bug/Display.html?id=35878
return $resolved_implementation->(@_) if __CAG_BROKEN_GOTO;
goto $resolved_implementation;
};
Scalar::Util::weaken($expected_cref); # to break the self-reference
$ret;
}
# no Sub::Name - just install the coderefs directly (compiling every time)
elsif (__CAG_NO_SUBNAME) {
my $src = $accessor_maker_cache->{source}{$type}{$group}{$field} ||=
$maker_templates->{$type}{pp_code}->($group, $field);
no warnings 'redefine';
local $@ if __CAG_UNSTABLE_DOLLARAT;
eval "sub ${class}::${methname} { $src }";
undef; # so that no further attempt will be made to install anything
}
# a coderef generator with a variable pad (returns a fresh cref on every invocation)
else {
($accessor_maker_cache->{pp}{$type}{$group}{$field} ||= do {
my $src = $accessor_maker_cache->{source}{$type}{$group}{$field} ||=
$maker_templates->{$type}{pp_code}->($group, $field);
local $@ if __CAG_UNSTABLE_DOLLARAT;
eval "sub { my \$dummy; sub { \$dummy if 0; $src } }" or die $@;
})->()
}
};
1;