## See POD after __END__
-use 5.005_64;
+use 5.006_001;
use strict;
+use warnings::register;
our(@ISA, @EXPORT, $VERSION);
use Carp;
@ISA = qw(Exporter);
@EXPORT = qw(struct);
-$VERSION = '0.58';
+$VERSION = '0.63';
## Tested on 5.002 and 5.003 without class membership tests:
my $CHECK_CLASS_MEMBERSHIP = ($] >= 5.003_95);
sub DESTROY { }
}
+sub import {
+ my $self = shift;
+
+ if ( @_ == 0 ) {
+ $self->export_to_level( 1, $self, @EXPORT );
+ } elsif ( @_ == 1 ) {
+ # This is admittedly a little bit silly:
+ # do we ever export anything else than 'struct'...?
+ $self->export_to_level( 1, $self, @_ );
+ } else {
+ goto &struct;
+ }
+}
+
sub struct {
# Determine parameter list structure, one of:
$class = (caller())[0];
@decls = @_;
}
+
_usage_error() if @decls % 2 == 1;
# Ensure we are not, and will not be, a subclass.
$out .= " \$r->$elem = $init undef;$cmt\n";
}
elsif( $type =~ /^\w+(?:::\w+)*$/ ){
- $init = "defined(\$init{'$name'}) ? \%{\$init{'$name'}} : ()";
- $out .= " croak 'Initializer for $name must be hash reference'\n";
- $out .= " if defined(\$init{'$name'}) && ref(\$init{'$name'}) ne 'HASH';\n";
- $out .= " \$r->$elem = '${type}'->new($init);$cmt\n";
+ $out .= " if (defined(\$init{'$name'})) {\n";
+ $out .= " if (ref \$init{'$name'} eq 'HASH')\n";
+ $out .= " { \$r->$elem = $type->new(\%{\$init{'$name'}}) } $cmt\n";
+ $out .= " elsif (UNIVERSAL::isa(\$init{'$name'}, '$type'))\n";
+ $out .= " { \$r->$elem = \$init{'$name'} } $cmt\n";
+ $out .= " else { croak 'Initializer for $name must be hash or $type reference' }\n";
+ $out .= " }\n";
$classes{$name} = $type;
$got_class = 1;
}
$cnt = 0;
foreach $name (@methods){
if ( do { no strict 'refs'; defined &{$class . "::$name"} } ) {
- carp "function '$name' already defined, overrides struct accessor method"
- if $^W;
+ warnings::warnif("function '$name' already defined, overrides struct accessor method");
}
else {
$pre = $pst = $cmt = $sel = '';
if( defined $arrays{$name} ){
$out .= " my \$i;\n";
$out .= " \@_ ? (\$i = shift) : return \$r->$elem;\n";
+ $out .= " if (ref(\$i) eq 'ARRAY' && !\@_) { \$r->$elem = \$i; return \$r }\n";
$sel = "->[\$i]";
}
elsif( defined $hashes{$name} ){
$out .= " my \$i;\n";
- $out .= " \@_ ? (\$i = shift) : return \$r->$elem;\n";
+ $out .= " \@_ ? (\$i = shift) : return \$r->$elem;\n";
+ $out .= " if (ref(\$i) eq 'HASH' && !\@_) { \$r->$elem = \$i; return \$r }\n";
$sel = "->{\$i}";
}
elsif( defined $classes{$name} ){
# declare struct, based on array, implicit class name:
struct( ELEMENT_NAME => ELEMENT_TYPE, ... );
+ # Declare struct at compile time
+ use Class::Struct CLASS_NAME => [ ELEMENT_NAME => ELEMENT_TYPE, ... ];
+ use Class::Struct CLASS_NAME => { ELEMENT_NAME => ELEMENT_TYPE, ... };
+
+ # declare struct at compile time, based on array, implicit class name:
+ package CLASS_NAME;
+ use Class::Struct ELEMENT_NAME => ELEMENT_TYPE, ... ;
package Myobj;
use Class::Struct;
# hash type accessor:
$hash_ref = $obj->h; # reference to whole hash
$hash_element_value = $obj->h('x'); # hash element value
- $obj->h('x', 'new value'); # assign to hash element
+ $obj->h('x', 'new value'); # assign to hash element
# class type accessor:
$element_value = $obj->c; # object reference
$obj->c->method(...); # call method of object
$obj->c(new My_Other_Class); # assign a new object
-
=head1 DESCRIPTION
C<Class::Struct> exports a single function, C<struct>.
Each element's type can be scalar, array, hash, or class.
-
=head2 The C<struct()> function
The C<struct> function has three forms of parameter-list.
method by that name is explicitly defined; in the latter case, a
warning is issued if the warning flag (B<-w>) is set.
+=head2 Class Creation at Compile Time
+
+C<Class::Struct> can create your class at compile time. The main reason
+for doing this is obvious, so your class acts like every other class in
+Perl. Creating your class at compile time will make the order of events
+similar to using any other class ( or Perl module ).
+
+There is no significant speed gain between compile time and run time
+class creation, there is just a new, more standard order of events.
=head2 Element Types and Accessor Methods
The accessor method provided by C<struct> for an element depends
on the declared type of the element.
-=over
+=over 4
=item Scalar (C<'$'> or C<'*$'>)
element type is C<'*@'>, a reference to the array element is
returned.
+As a special case, when the accessor is called with an array reference
+as the sole argument, this causes an assignment of the whole array element.
+The object reference is returned.
+
=item Hash (C<'%'> or C<'*%'>)
The element is a hash, initialized by default to C<()>.
accessor returns the hash element value. If the element type is
C<'*%'>, a reference to the hash element is returned.
+As a special case, when the accessor is called with a hash reference
+as the sole argument, this causes an assignment of the whole hash element.
+The object reference is returned.
+
=item Class (C<'Class_Name'> or C<'*Class_Name'>)
The element's value must be a reference blessed to the named
-class or to one of its subclasses. The element is initialized to
-the result of calling the C<new> constructor of the named class.
+class or to one of its subclasses. The element is not initialized
+by default.
The accessor's argument, if any, is assigned to the element. The
accessor will C<croak> if this is not an appropriate object
initializer for an array element is an array reference. The initializer
for a hash is a hash reference.
-The initializer for a class element is also a hash reference, and the
-contents of that hash are passed to the element's own constructor.
+The initializer for a class element is an object of the corresponding class,
+or of one of it's subclasses, or a reference to a hash containing named
+arguments to be passed to the element's constructor.
See Example 3 below for an example of initialization.
-
=head1 EXAMPLES
-=over
+=over 4
=item Example 1
Giving a struct element a class type that is also a struct is how
-structs are nested. Here, C<timeval> represents a time (seconds and
-microseconds), and C<rusage> has two elements, each of which is of
-type C<timeval>.
+structs are nested. Here, C<Timeval> represents a time (seconds and
+microseconds), and C<Rusage> has two elements, each of which is of
+type C<Timeval>.
use Class::Struct;
- struct( rusage => {
- ru_utime => timeval, # seconds
- ru_stime => timeval, # microseconds
+ struct( Rusage => {
+ ru_utime => 'Timeval', # user time used
+ ru_stime => 'Timeval', # system time used
});
- struct( timeval => [
- tv_secs => '$',
- tv_usecs => '$',
+ struct( Timeval => [
+ tv_secs => '$', # seconds
+ tv_usecs => '$', # microseconds
]);
# create an object:
- my $t = new rusage;
+ my $t = Rusage->new(ru_utime=>Timeval->new(), ru_stime=>Timeval->new());
- # $t->ru_utime and $t->ru_stime are objects of type timeval.
+ # $t->ru_utime and $t->ru_stime are objects of type Timeval.
# set $t->ru_utime to 100.0 sec and $t->ru_stime to 5.0 sec.
$t->ru_utime->tv_secs(100);
$t->ru_utime->tv_usecs(0);
$t->ru_stime->tv_secs(5);
$t->ru_stime->tv_usecs(0);
-
=item Example 2
An accessor function can be redefined in order to provide
my $self = shift;
if ( @_ ) {
die 'count must be nonnegative' if $_[0] < 0;
- $self->{'count'} = shift;
+ $self->{'MyObj::count'} = shift;
warn "Too many args to count" if @_;
}
- return $self->{'count'};
+ return $self->{'MyObj::count'};
}
package main;
initialization is performed instead. Initializers for non-existent
elements are silently ignored.
-Note that the initializer for a nested struct is specified
-as an anonymous hash of initializers, which is passed on to the nested
-struct's constructor.
-
+Note that the initializer for a nested class may be specified as
+an object of that class, or as a reference to a hash of initializers
+that are passed on to the nested struct's constructor.
use Class::Struct;
my $cat = Cat->new( name => 'Socks',
kittens => ['Monica', 'Kenneth'],
markings => { socks=>1, blaze=>"white" },
- breed => { name=>'short-hair', cross=>1 },
+ breed => Breed->new(name=>'short-hair', cross=>1),
+ or: breed => {name=>'short-hair', cross=>1},
);
print "Once a cat called ", $cat->name, "\n";
print "(which was a ", $cat->breed->name, ")\n";
print "had two kittens: ", join(' and ', @{$cat->kittens}), "\n";
+=back
=head1 Author and Modification History
+Modified by Damian Conway, 2001-09-10, v0.62.
+
+ Modified implicit construction of nested objects.
+ Now will also take an object ref instead of requiring a hash ref.
+ Also default initializes nested object attributes to undef, rather
+ than calling object constructor without args
+ Original over-helpfulness was fraught with problems:
+ * the class's constructor might not be called 'new'
+ * the class might not have a hash-like-arguments constructor
+ * the class might not have a no-argument constructor
+ * "recursive" data structures didn't work well:
+ package Person;
+ struct { mother => 'Person', father => 'Person'};
+
+
+Modified by Casey West, 2000-11-08, v0.59.
+
+ Added the ability for compile time class creation.
Modified by Damian Conway, 1999-03-05, v0.58.
Previously these were returned as a reference to a reference
to the element.
-
Renamed to C<Class::Struct> and modified by Jim Miner, 1997-04-02.
members() function removed.
Class name to struct() made optional.
Diagnostic checks added.
-
Originally C<Class::Template> by Dean Roehrich.
# Template.pm --- struct/member template builder