# (X)Emacs mode: -*- cperl -*-
# This file is preprocessed by cmmg.pl . Subs are sought, as 'sub name {' (at
# a line begin) until '}' at a line begin. Optional POD documentation may
# precede, if started with =head (and ended with =cut). Blank lines &
# comments in between will be silently ignored, and anything else will be
# noisily ignored.
# -------------------------------------
=head1 NAME
Class::Method::hash - Create methods for handling a hash value.
=head1 SYNOPSIS
use Class::MethodMaker
[ hash => [qw/ x /] ];
$instance->x; # empty
$instance->x(a => 1, b => 2, c => 3);
$instance->x_count == 3; # true
$instance->x = (b => 5, d => 8); # Note this *replaces* the hash,
# not adds to it
$instance->x_index('b') == 5; # true
$instance->x_exists('c'); # false
$instance->x_exists('d'); # true
=head1 DESCRIPTION
Creates methods to handle hash values in an object. For a component named
C<x>, by default creates methods C<x>, C<x_reset>, C<x_clear>, C<x_isset>,
C<x_count>, C<x_index>, C<x_keys>, C<x_values>, C<x_each>, C<x_exists>,
C<x_delete>, C<x_set>, C<x_get>.
=cut
sub hash {
my $class = shift;
my ($target_class, $name, $options, $global) = @_;
my %known_options = map {; $_ => 1 } qw( static type forward
default default_ctor
tie_class tie_args
read_cb store_cb
v1_compat );
if ( my @bad_opt = grep ! exists $known_options{$_}, keys %$options ) {
my $prefix = 'Option' . (@bad_opt > 1 ? 's' : '');
croak("$prefix not recognized for attribute type hash: ",
join(', ', @bad_opt), "\n");
}
my $type = $options->{type};
croak "argument to -type ($type) must be a simple value\n"
unless ! ref $type;
my $forward = $options->{forward};
my @forward;
if ( defined $forward ) {
if ( ref $forward ) {
croak("-forward option can only handle arrayrefs or simple values " .
"($forward)\n")
unless UNIVERSAL::isa($forward, 'ARRAY');
@forward = @$forward;
print "Value '$_' passed to -forward is not a simple value"
for grep ref($_), @forward;
} else {
@forward = $forward;
}
}
my ($default, $dctor, $default_defined);
if ( exists $options->{default} ) {
croak("Cannot specify both default & default_ctor options to hash ",
"(attribute $name\n")
if exists $options->{default_ctor};
$default = $options->{default};
$default_defined = 1;
} elsif ( exists $options->{default_ctor} ) {
if ( ! ref $options->{default_ctor} ) {
my $meth = $options->{default_ctor};
croak("default_ctor can only be a simple value when -type is in effect",
" (attribute $name)\n")
unless defined $type;
croak("default_ctor must be a valid identifier (or a code ref): $meth ",
"(attribute $name)\n")
unless $meth =~ /^[A-Za-z_][A-Za-z0-9_]*/;
$dctor = sub { $type->$meth(@_) };
} else {
$dctor = $options->{default_ctor};
croak("Argument to default_ctor must be a simple value or a code ref ",
" (attribute $name)\n")
if ! UNIVERSAL::isa($dctor, 'CODE');
}
$default_defined = 1;
}
my ($tie_class, @tie_args);
if ( exists $options->{tie_class} ) {
$tie_class = $options->{tie_class};
if ( exists $options->{tie_args} ) {
my $tie_args = $options->{tie_args};
@tie_args = ref $tie_args ? @$tie_args : $tie_args;
}
} elsif ( exists $options->{tie_args} ) {
carp "tie_args option ignored in absence of tie_class(attribute $name)\n";
}
# callback options
my @read_callbacks = ref $options->{read_cb} eq 'ARRAY' ?
@{$options->{read_cb}} :
$options->{read_cb}
if exists $options->{read_cb};
my @store_callbacks = ref $options->{store_cb} eq 'ARRAY' ?
@{$options->{store_cb}} :
$options->{store_cb}
if exists $options->{store_cb};
%%STORDECL%%
# Predefine keys for subs we always want to exist (because they're
# referenced by other subs)
my %names = map {; $_ => undef } qw( * *_set *_reset *_index *_each );
# The newer '*' treats a single +{} differently. This is needed to ensure
# that hash_init works for v1 scenarios
$names{'='} = '*_v1compat' if $options->{v1_compat};
return {
=pod
Methods available are:
=cut
=pod
=head3 C<*>
I<Created by default>. This method returns the list of keys and values stored
in the slot (they are returned pairwise, i.e., key, value, key, value; as with
perl hashes, no order of keys is guaranteed). If any arguments are provided
to this method, they B<replace> the current hash contents. In an array
context it returns the keys, values as an array and in a scalar context as a
hash-reference. Note that this reference is no longer a direct reference to
the storage, in contrast to Class::MethodMaker v1. This is to protect
encapsulation. See x_ref if you need that functionality (and are prepared to
take the associated risk.)
If a single argument is provided that is an arrayref or hashref, it is
expanded and its contents used in place of the existing contents. This is a
more efficient passing mechanism for large numbers of values.
=cut
'*' =>
sub : method {
my $z = \@_; # work around stack problems
my $want = wantarray;
print STDERR "W: ", $want, ':', join(',',@_),"\n"
if DEBUG;
# We also deliberately avoid instantiating storage if not
# necessary.
if ( @_ == 1 ) {
if ( exists %%STORAGE%% ) {
return
unless defined $want;
if ( $want ) {
%{%%STORAGE%%};
} else {
+{%{%%STORAGE%%}}; %%V2ONLY%%
%%STORAGE%%; %%V1COMPAT%%
}
} else {
return
unless defined $want;
if ( $want ) {
();
} else {
+{};
}
}
} elsif ( @_ == 2 and ref $_[1] eq 'HASH') {
%%STORE(+{%{$_[1]}},$v)%%
# Only asgn-check the potential *values*
%%ASGNCHK%(%%IFSTORE(values %$v, values %{$_[1]})%%)%%
if ( ! defined $want ) {
%{%%STORAGE%%} = %%IFSTORE(%$v,%{$_[1]})%%;
return;
}
if ( $want ) {
(%{%%STORAGE%%} = %%IFSTORE(%$v,%{$_[1]})%%);
} else {
+{%{%%STORAGE%%} = %%IFSTORE(%$v,%{$_[1]})%%}; %%V2ONLY%%
%%V1COMPAT_ON%%
%{%%STORAGE%%} = %%IFSTORE(%$v,%{$_[1]})%%;
%%STORAGE%%;
%%V1COMPAT_OFF%%
}
} else {
croak "Uneven number of arguments to method '$names{'*'}'\n"
unless @_ % 2;
%%STORE(+{@_[1..$#_]},$v)%%
# Only asgn-check the potential *values*
%%ASGNCHK%(%%IFSTORE(values %$v, @_[map $_*2,1..($#_/2)])%%)%%
if ( ! defined $want ) {
%{%%STORAGE%%} = %%IFSTORE(%$v,@_[1..$#_])%%;
return;
}
if ( $want ) {
(%{%%STORAGE%%} = %%IFSTORE(%$v,@_[1..$#_])%%);
} else {
+{%{%%STORAGE%%} = %%IFSTORE(%$v,@_[1..$#_])%%}; %%V2ONLY%%
%%V1COMPAT_ON%%
%{%%STORAGE%%} = %%IFSTORE(%$v,@_[1..$#_])%%;
%%STORAGE%%;
%%V1COMPAT_OFF%%
}
}
},
#
# This method is for internal use only. It exists only for v1
# compatibility, and may change or go away at any time. Caveat
# Emptor.
#
'!*_v1compat' =>
sub : method {
my $want = wantarray;
if ( @_ == 1 ) {
# No args
return
unless defined $want;
%%STORAGE%% = +{}
unless exists %%STORAGE%%;
return $want ? %{%%STORAGE%%} : %%STORAGE%%;
} elsif ( @_ == 2 ) {
# 1 arg
if ( my $type = ref $_[1] ) {
if ( $type eq 'ARRAY' ) {
my $x = $names{'*_index'};
return my @x = $_[0]->$x(@{$_[1]});
} elsif ( $type eq 'HASH' ) {
my $x = $names{'*_set'};
$_[0]->$x(%{$_[1]});
return $want ? %{%%STORAGE%%} : %%STORAGE%%;
} else {
# Not a recognized ref type for hash method
# Assume it's an object type, for use with some tied hash
$x = $names{'*_index'};
return ($_[0]->$x($_[1]))[0];
}
} else { # $key is simple scalar
$x = $names{'*_index'};
return ($_[0]->$x($_[1]))[0];
}
} else {
# Many args
unless ( @_ % 2 ) {
carp "No value for key '$_[-1]'.";
push @_, undef;
}
my $x = $names{'*_set'};
$_[0]->$x(@_[1..$#_]);
$x = $names{'*'};
return $want ? %{%%STORAGE%%} : %%STORAGE%%;
}
},
=pod
=head3 C<*_reset>
I<Created by default>. Called without an argument, this resets the component
as a whole; deleting any associated storage, and returning the component to
its default state. Normally, this means that I<*_isset> will return false,
and I<*> will return undef. If C<-default> is in effect, then the component
will be set to the default value, and I<*_isset> will return true. If
C<-default_ctor> is in effect, then the default subr will be invoked, and its
return value used to set the value of the component, and I<*_isset> will
return true.
If called with arguments, these arguments are treated as indexes into the
component, and the individual elements thus referenced are reset (their
storage deleted, so that I<*_isset(n)> will return false for appropriate I<n>,
except where C<-default> or C<-default_ctor> are in force, as above). As with
perl arrays, resetting the highest set value implicitly decreases the count
(but x_reset(n) never unsets the aggregate itself, even if all the elements
are not set).
=cut
'*_reset' =>
sub : method {
if ( @_ == 1 ) {
%%RESET%%%
delete %%STORAGE%%;
} else {
delete @{%%STORAGE%%}{@_[1..$#_]};
}
return;
},
=pod
=head3 C<*_clear>
I<Created by default>. Empty the component of all elements, but without
deleting the storage itself.
If given a list of keys, then the elements I<that exist> indexed by those keys
are set to undef (but not deleted).
Note the very different semantics: C<< $x->a_clear('b') >> sets the value of
C<b> in component 'a' to undef (if C<b>) already exists (so C<<
$x->a_isset('b')) >> returns true), but C<< $x->a_clear() >> deletes the
element C<b> from component 'a' (so C<< $x->a_isset('b')) >> returns false).
=cut
'*_clear' =>
sub : method {
if ( @_ == 1 ) {
%{%%STORAGE%%} = ();
} else {
${%%STORAGE%%}{$_} = undef
for grep exists ${%%STORAGE%%}{$_}, @_[1..$#_];
}
return;
},
=pod
=head3 C<*_isset>
I<Created by default>. Whether the component is currently set. This is
different from being defined; initially, the component is not set (and if
read, will return undef); it can be set to undef (which is a set value, which
also returns undef). Having been set, the only way to unset the component is
with C<*_reset>.
If a default value is in effect, then C<*_isset> will always return true.
I<*_isset()> tests the component as a whole. I<*_isset(a)> tests the element
indexed by I<a>. I<*_isset(a,b)> tests the elements indexed by I<a>, I<b>,
and returns the logical conjunction (I<and>) of the tests.
=cut
'*_isset' =>
( $default_defined ?
sub : method { 1 } :
sub : method {
if ( @_ == 1 ) {
exists %%STORAGE%%
} elsif ( @_ == 2 ) {
exists %%STORAGE%%->{$_[1]}
} else {
for ( @_[1..$#_] ) {
return
if ! exists %%STORAGE%%->{$_};
}
return 1;
}
}
),
=pod
=head3 C<*_count>
I<Created by default>. Returns the number of elements in this component.
This is not affected by presence (or lack) of a C<default> (or
C<default_ctor>). Returns C<undef> if whole component not set (as per
I<*_isset>).
=cut
'*_count' =>
sub : method {
if ( exists %%STORAGE%% ) {
return scalar keys %{%%STORAGE%%};
} else {
return;
}
},
=pod
=head3 C<*_index>
I<Created by default>. Takes a list of indices, returns a list of the
corresponding values.
If a default (or a default ctor) is in force, then a lookup by
index will vivify & set to the default the respective elements (and
therefore the aggregate data-structure also, if it's not already).
=cut
# I did try to do clever things with returning refs if given refs,
# but that conflicts with the use of lvalues
'*_index' =>
( $default_defined ?
sub : method {
for (@_[1..$#_]) {
%%DEFCHECK%(%%STORAGE%%->{$_})%%
}
@{%%STORAGE%%}{@_[1..$#_]};
} :
sub : method {
@{%%STORAGE%%}{@_[1..$#_]};
}
),
=pod
=head3 C<*_keys>
I<Created by default>. The known keys, as a list in list context, as an
arrayref in scalar context.
If you're expecting a count of the keys in scalar context, see I<*_count>.
=cut
'*_keys' =>
sub : method {
# Unusual ! wantarray order required because ?: supplies a scalar
# context to it's middle argument.
return ! wantarray ? [keys %{%%STORAGE%%}] : keys %{%%STORAGE%%};
},
=pod
=head3 C<*_values>
I<Created by default>. The known values, as a list in list context, as an
arrayref in scalar context.
=cut
'*_values' =>
sub : method {
# Unusual ! wantarray order required because ?: supplies a scalar
# context to it's middle argument.
return
! wantarray ? [values %{%%STORAGE%%}] : values %{%%STORAGE%%};
},
=pod
=head3 C<*_each>
I<Created by default>. The next pair of key, value (as a list) from the hash.
=cut
'*_each' =>
sub : method {
return each %{%%STORAGE%%};
},
=pod
=head3 C<*_exists>
I<Created by default>. Takes any number of arguments, considers each as a
key, and determines whether the key exists in the has. Returns the logical
conjunction (I<and>).
=cut
'*_exists' =>
sub : method {
return
for grep ! exists %%STORAGE%%->{$_}, @_[1..$#_];
return 1;
},
=pod
=head3 C<*_delete>
I<Created by default>. This operates exactly like I<*_reset>, except that
calling this with no args does nothing. This is provided for orthogonality
with the Perl C<delete> operator, while I<*_reset> is provided for
orthogonality with other component types.
=cut
'*_delete' =>
sub : method {
if ( @_ > 1 ) {
my $x = $names{'*_reset'};
$_[0]->$x(@_[1..$#_]);
}
return;
},
=pod
=head3 C<*_set>
%n = $x->h; # (a=>1,b=>2,c=>3) (in some order)
$h->h_set(b=>4,d=>7);
%n = $h->a; # (a=>1,b=>4,c=>3,d=>7) (in some order)
I<Created by default>. Takes a list, treated as pairs of index => value; each
given index is set to the corresponding value. No return.
If two arguments are given, of which the first is an arrayref, then it is
treated as a list of indices of which the second argument (which must also be
an arrayref) are the corresponding values. Thus the following two commands
are equivalent:
$x->a_set(b=>4,d=>7);
$x->a_set(['b','d'],[4,7]);
=cut
'*_set' =>
sub : method {
croak
sprintf("'%s' requires an even number of args (got %d)\n",
$names{'*_set'}, @_-1)
unless @_ % 2;
if ( @_ == 3 and ref $_[1] eq 'ARRAY' ) {
%%STORE([@{$_[2]}], $v)%%
%%ASGNCHK%(%%IFSTORE(@$v,@{$_[2]})%%)%%
@{%%STORAGE%%}{@{$_[1]}} = %%IFSTORE(@$v,@{$_[2]})%%;
} else {
%%STORE([@_[map {$_*2} 1..($#_/2)]], $v)%%
%%ASGNCHK%(%%IFSTORE(@$v,@_[map {$_*2} 1..($#_/2)])%%)%%
${%%STORAGE%%}{$_[$_*2-1]} = %%IFSTORE($v->[$_-1], $_[$_*2])%%
for 1..($#_/2);
}
return;
},
=pod
=head3 C<*_get>
I<Created by default>. Retrieves the value of the component without setting
(ignores any arguments passed).
=cut
'*_get' =>
sub : method {
my $x = $names{'*'};
return $_[0]->$x();
},
#
# This method is deprecated. It exists only for v1 compatibility,
# and may change or go away at any time. Caveat Emptor.
#
'!*_tally' =>
sub : method {
my @v;
my ($y, $z) = @names{qw(*_set *_index)};
for (@_[1..$#_]) {
my $v = $_[0]->$z($_);
$v++;
$_[0]->$y($_, $v);
push @v, $v;
}
return @v;
},
#
# This method is deprecated. It exists only for v1 compatibility,
# and may change or go away at any time. Caveat Emptor.
#
'!*_ref' =>
sub : method { %%STORAGE%% },
map({; my $f = $_;
$_ =>
sub : method {
my $x = $names{'*'};
my %y = $_[0]->$x();
while ( my($k, $v) = each %y ) {
$y{$k} = $v->$f(@_[1..$#_])
if defined $v;
}
# Unusual ! wantarray order required because ?: supplies
# a scalar context to it's middle argument.
! wantarray ? \%y : %y;
}
} @forward),
}, \%names;
}