use warnings;
use DBIx::Class::ResultSet;
+use DBIx::Class::ResultSourceHandle;
use Carp::Clan qw/^DBIx::Class/;
use Storable;
use base qw/DBIx::Class/;
-__PACKAGE__->load_components(qw/AccessorGroup/);
__PACKAGE__->mk_group_accessors('simple' => qw/_ordered_columns
_columns _primaries _unique_constraints name resultset_attributes
- schema from _relationships/);
+ schema from _relationships column_info_from_storage source_info
+ source_name/);
__PACKAGE__->mk_group_accessors('component_class' => qw/resultset_class
result_class/);
=head1 METHODS
+=pod
+
+=head2 new
+
+ $class->new();
+
+ $class->new({attribute_name => value});
+
+Creates a new ResultSource object. Not normally called directly by end users.
+
=cut
sub new {
my ($class, $attrs) = @_;
$class = ref $class if ref $class;
- my $new = bless({ %{$attrs || {}}, _resultset => undef }, $class);
+
+ my $new = bless { %{$attrs || {}} }, $class;
$new->{resultset_class} ||= 'DBIx::Class::ResultSet';
$new->{resultset_attributes} = { %{$new->{resultset_attributes} || {}} };
$new->{_ordered_columns} = [ @{$new->{_ordered_columns}||[]}];
=pod
+=head2 source_info
+
+Stores a hashref of per-source metadata. No specific key names
+have yet been standardized, the examples below are purely hypothetical
+and don't actually accomplish anything on their own:
+
+ __PACKAGE__->source_info({
+ "_tablespace" => 'fast_disk_array_3',
+ "_engine" => 'InnoDB',
+ });
+
=head2 add_columns
$table->add_columns(qw/col1 col2 col3/);
the hashref as the column_info for that column. Repeated calls of this
method will add more columns, not replace them.
+The column names given will be created as accessor methods on your
+L<DBIx::Class::Row> objects, you can change the name of the accessor
+by supplying an L</accessor> in the column_info hash.
+
The contents of the column_info are not set in stone. The following
keys are currently recognised/used by DBIx::Class:
=item accessor
-Use this to set the name of the accessor for this column. If unset,
+Use this to set the name of the accessor method for this column. If unset,
the name of the column will be used.
=item data_type
=item size
The length of your column, if it is a column type that can have a size
-restriction. This is currently not used by DBIx::Class.
+restriction. This is currently only used by L<DBIx::Class::Schema/deploy>.
=item is_nullable
Set this to a true value for a columns that is allowed to contain
-NULL values. This is currently not used by DBIx::Class.
+NULL values. This is currently only used by L<DBIx::Class::Schema/deploy>.
=item is_auto_increment
Set this to a true value for a column whose value is somehow
automatically set. This is used to determine which columns to empty
-when cloning objects using C<copy>.
+when cloning objects using C<copy>. It is also used by
+L<DBIx::Class::Schema/deploy>.
=item is_foreign_key
Set this to a true value for a column that contains a key from a
-foreign table. This is currently not used by DBIx::Class.
+foreign table. This is currently only used by
+L<DBIx::Class::Schema/deploy>.
=item default_value
Set this to the default value which will be inserted into a column
by the database. Can contain either a value or a function. This is
-currently not used by DBIx::Class.
+currently only used by L<DBIx::Class::Schema/deploy>.
=item sequence
will attempt to retrieve the name of the sequence from the database
automatically.
+=item extra
+
+This is used by L<DBIx::Class::Schema/deploy> and L<SQL::Translator>
+to add extra non-generic data to the column. For example: C<< extra
+=> { unsigned => 1} >> is used by the MySQL producer to set an integer
+column to unsigned. For more details, see
+L<SQL::Translator::Producer::MySQL>.
+
=back
=head2 add_column
sub add_columns {
my ($self, @cols) = @_;
$self->_ordered_columns(\@cols) unless $self->_ordered_columns;
-
+
my @added;
my $columns = $self->_columns;
while (my $col = shift @cols) {
return $self;
}
-*add_column = \&add_columns;
+sub add_column { shift->add_columns(@_); } # DO NOT CHANGE THIS TO GLOB
=head2 has_column
unless exists $self->_columns->{$column};
#warn $self->{_columns_info_loaded}, "\n";
if ( ! $self->_columns->{$column}{data_type}
+ and $self->column_info_from_storage
and ! $self->{_columns_info_loaded}
and $self->schema and $self->storage )
{
$self->{_columns_info_loaded}++;
- my $info;
+ my $info = {};
+ my $lc_info = {};
# eval for the case of storage without table
- eval { $info = $self->storage->columns_info_for($self->from) };
+ eval { $info = $self->storage->columns_info_for( $self->from ) };
unless ($@) {
+ for my $realcol ( keys %{$info} ) {
+ $lc_info->{lc $realcol} = $info->{$realcol};
+ }
foreach my $col ( keys %{$self->_columns} ) {
- foreach my $i ( keys %{$info->{$col}} ) {
- $self->_columns->{$col}{$i} = $info->{$col}{$i};
- }
+ $self->_columns->{$col} = {
+ %{ $self->_columns->{$col} },
+ %{ $info->{$col} || $lc_info->{lc $col} || {} }
+ };
}
}
}
return $self->_columns->{$column};
}
+=head2 column_info_from_storage
+
+Enables the on-demand automatic loading of the above column
+metadata from storage as neccesary. This is *deprecated*, and
+should not be used. It will be removed before 1.0.
+
+ __PACKAGE__->column_info_from_storage(1);
+
=head2 columns
my @column_names = $obj->columns;
return @{$self->{_ordered_columns}||[]};
}
+=head2 remove_columns
+
+ $table->remove_columns(qw/col1 col2 col3/);
+
+Removes columns from the result source.
+
+=head2 remove_column
+
+ $table->remove_column('col');
+
+Convenience alias to remove_columns.
+
+=cut
+
+sub remove_columns {
+ my ($self, @cols) = @_;
+
+ return unless $self->_ordered_columns;
+
+ my $columns = $self->_columns;
+ my @remaining;
+
+ foreach my $col (@{$self->_ordered_columns}) {
+ push @remaining, $col unless grep(/$col/, @cols);
+ }
+
+ foreach (@cols) {
+ delete $columns->{$_};
+ };
+
+ $self->_ordered_columns(\@remaining);
+}
+
+sub remove_column { shift->remove_columns(@_); } # DO NOT CHANGE THIS TO GLOB
+
=head2 set_primary_key
=over 4
=head2 add_unique_constraint
Declare a unique constraint on this source. Call once for each unique
-constraint. Unique constraints are used when you call C<find> on a
-L<DBIx::Class::ResultSet>. Only columns in the constraint are searched,
-for example:
+constraint.
# For UNIQUE (column1, column2)
__PACKAGE__->add_unique_constraint(
constraint_name => [ qw/column1 column2/ ],
);
+Alternatively, you can specify only the columns:
+
+ __PACKAGE__->add_unique_constraint([ qw/column1 column2/ ]);
+
+This will result in a unique constraint named C<table_column1_column2>, where
+C<table> is replaced with the table name.
+
+Unique constraints are used, for example, when you call
+L<DBIx::Class::ResultSet/find>. Only columns in the constraint are searched.
+
=cut
sub add_unique_constraint {
- my ($self, $name, $cols) = @_;
+ my $self = shift;
+ my $cols = pop @_;
+ my $name = shift;
+
+ $name ||= $self->name_unique_constraint($cols);
foreach my $col (@$cols) {
$self->throw_exception("No such column $col on table " . $self->name)
$self->_unique_constraints(\%unique_constraints);
}
+=head2 name_unique_constraint
+
+Return a name for a unique constraint containing the specified columns. These
+names consist of the table name and each column name, separated by underscores.
+
+For example, a constraint on a table named C<cd> containing the columns
+C<artist> and C<title> would result in a constraint name of C<cd_artist_title>.
+
+=cut
+
+sub name_unique_constraint {
+ my ($self, $cols) = @_;
+
+ return join '_', $self->name, @$cols;
+}
+
=head2 unique_constraints
Read-only accessor which returns the list of unique constraints on this source.
return %{shift->_unique_constraints||{}};
}
+=head2 unique_constraint_names
+
+Returns the list of unique constraint names defined on this source.
+
+=cut
+
+sub unique_constraint_names {
+ my ($self) = @_;
+
+ my %unique_constraints = $self->unique_constraints;
+
+ return keys %unique_constraints;
+}
+
+=head2 unique_constraint_columns
+
+Returns the list of columns that make up the specified unique constraint.
+
+=cut
+
+sub unique_constraint_columns {
+ my ($self, $constraint_name) = @_;
+
+ my %unique_constraints = $self->unique_constraints;
+
+ $self->throw_exception(
+ "Unknown unique constraint $constraint_name on '" . $self->name . "'"
+ ) unless exists $unique_constraints{$constraint_name};
+
+ return @{ $unique_constraints{$constraint_name} };
+}
+
=head2 from
Returns an expression of the source to be supplied to storage to specify
An arrayref containing a list of accessors in the foreign class to proxy in
the main class. If, for example, you do the following:
-
+
CD->might_have(liner_notes => 'LinerNotes', undef, {
proxy => [ qw/notes/ ],
});
-
+
Then, assuming LinerNotes has an accessor named notes, you can do:
my $cd = CD->find(1);
unless $cond;
$attrs ||= {};
+ # Check foreign and self are right in cond
+ if ( (ref $cond ||'') eq 'HASH') {
+ for (keys %$cond) {
+ $self->throw_exception("Keys of condition should be of form 'foreign.col', not '$_'")
+ if /\./ && !/^foreign\./;
+ }
+ }
+
my %rels = %{ $self->_relationships };
$rels{$rel} = { class => $f_source_name,
source => $f_source_name,
my $f_source = $self->schema->source($f_source_name);
unless ($f_source) {
- eval "require $f_source_name;";
- if ($@) {
- die $@ unless $@ =~ /Can't locate/;
- }
+ $self->ensure_class_loaded($f_source_name);
$f_source = $f_source_name->result_source;
#my $s_class = ref($self->schema);
#$f_source_name =~ m/^${s_class}::(.*)$/;
return exists $self->_relationships->{$rel};
}
+=head2 reverse_relationship_info
+
+=over 4
+
+=item Arguments: $relname
+
+=back
+
+Returns an array of hash references of relationship information for
+the other side of the specified relationship name.
+
+=cut
+
+sub reverse_relationship_info {
+ my ($self, $rel) = @_;
+ my $rel_info = $self->relationship_info($rel);
+ my $ret = {};
+
+ return $ret unless ((ref $rel_info->{cond}) eq 'HASH');
+
+ my @cond = keys(%{$rel_info->{cond}});
+ my @refkeys = map {/^\w+\.(\w+)$/} @cond;
+ my @keys = map {$rel_info->{cond}->{$_} =~ /^\w+\.(\w+)$/} @cond;
+
+ # Get the related result source for this relationship
+ my $othertable = $self->related_source($rel);
+
+ # Get all the relationships for that source that related to this source
+ # whose foreign column set are our self columns on $rel and whose self
+ # columns are our foreign columns on $rel.
+ my @otherrels = $othertable->relationships();
+ my $otherrelationship;
+ foreach my $otherrel (@otherrels) {
+ my $otherrel_info = $othertable->relationship_info($otherrel);
+
+ my $back = $othertable->related_source($otherrel);
+ next unless $back->name eq $self->name;
+
+ my @othertestconds;
+
+ if (ref $otherrel_info->{cond} eq 'HASH') {
+ @othertestconds = ($otherrel_info->{cond});
+ }
+ elsif (ref $otherrel_info->{cond} eq 'ARRAY') {
+ @othertestconds = @{$otherrel_info->{cond}};
+ }
+ else {
+ next;
+ }
+
+ foreach my $othercond (@othertestconds) {
+ my @other_cond = keys(%$othercond);
+ my @other_refkeys = map {/^\w+\.(\w+)$/} @other_cond;
+ my @other_keys = map {$othercond->{$_} =~ /^\w+\.(\w+)$/} @other_cond;
+ next if (!$self->compare_relationship_keys(\@refkeys, \@other_keys) ||
+ !$self->compare_relationship_keys(\@other_refkeys, \@keys));
+ $ret->{$otherrel} = $otherrel_info;
+ }
+ }
+ return $ret;
+}
+
+=head2 compare_relationship_keys
+
+=over 4
+
+=item Arguments: $keys1, $keys2
+
+=back
+
+Returns true if both sets of keynames are the same, false otherwise.
+
+=cut
+
+sub compare_relationship_keys {
+ my ($self, $keys1, $keys2) = @_;
+
+ # Make sure every keys1 is in keys2
+ my $found;
+ foreach my $key (@$keys1) {
+ $found = 0;
+ foreach my $prim (@$keys2) {
+ if ($prim eq $key) {
+ $found = 1;
+ last;
+ }
+ }
+ last unless $found;
+ }
+
+ # Make sure every key2 is in key1
+ if ($found) {
+ foreach my $prim (@$keys2) {
+ $found = 0;
+ foreach my $key (@$keys1) {
+ if ($prim eq $key) {
+ $found = 1;
+ last;
+ }
+ }
+ last unless $found;
+ }
+ }
+
+ return $found;
+}
+
=head2 resolve_join
=over 4
=cut
sub resolve_join {
- my ($self, $join, $alias, $seen) = @_;
+ my ($self, $join, $alias, $seen, $force_left) = @_;
$seen ||= {};
+ $force_left ||= { force => 0 };
if (ref $join eq 'ARRAY') {
return map { $self->resolve_join($_, $alias, $seen) } @$join;
} elsif (ref $join eq 'HASH') {
return
map {
my $as = ($seen->{$_} ? $_.'_'.($seen->{$_}+1) : $_);
- ($self->resolve_join($_, $alias, $seen),
- $self->related_source($_)->resolve_join($join->{$_}, $as, $seen));
+ local $force_left->{force};
+ (
+ $self->resolve_join($_, $alias, $seen, $force_left),
+ $self->related_source($_)->resolve_join(
+ $join->{$_}, $as, $seen, $force_left
+ )
+ );
} keys %$join;
} elsif (ref $join) {
$self->throw_exception("No idea how to resolve join reftype ".ref $join);
my $as = ($count > 1 ? "${join}_${count}" : $join);
my $rel_info = $self->relationship_info($join);
$self->throw_exception("No such relationship ${join}") unless $rel_info;
- my $type = $rel_info->{attrs}{join_type} || '';
+ my $type;
+ if ($force_left->{force}) {
+ $type = 'left';
+ } else {
+ $type = $rel_info->{attrs}{join_type} || '';
+ $force_left->{force} = 1 if lc($type) eq 'left';
+ }
return [ { $as => $self->related_source($join)->from,
-join_type => $type },
$self->resolve_condition($rel_info->{cond}, $as, $alias) ];
$self->throw_exception("Invalid rel cond val ${v}");
if (ref $for) { # Object
#warn "$self $k $for $v";
- $ret{$k} = $for->get_column($v);
+ $ret{$k} = $for->get_column($v) if $for->has_column_loaded($v);
#warn %ret;
} elsif (!defined $for) { # undef, i.e. "no object"
$ret{$k} = undef;
+ } elsif (ref $as eq 'HASH') { # reverse hashref
+ $ret{$v} = $as->{$k};
} elsif (ref $as) { # reverse object
$ret{$v} = $as->get_column($k);
} elsif (!defined $as) { # undef, i.e. "no reverse object"
$self->throw_exception(
"Can't prefetch has_many ${pre} (join cond too complex)")
unless ref($rel_info->{cond}) eq 'HASH';
+ #my @col = map { (/^self\.(.+)$/ ? ("${as_prefix}.$1") : ()); }
+ # values %{$rel_info->{cond}};
+ $collapse->{".${as_prefix}${pre}"} = [ $rel_source->primary_columns ];
+ # action at a distance. prepending the '.' allows simpler code
+ # in ResultSet->_collapse_result
my @key = map { (/^foreign\.(.+)$/ ? ($1) : ()); }
keys %{$rel_info->{cond}};
- $collapse->{"${as_prefix}${pre}"} = \@key;
my @ord = (ref($rel_info->{attrs}{order_by}) eq 'ARRAY'
? @{$rel_info->{attrs}{order_by}}
: (defined $rel_info->{attrs}{order_by}
=head2 resultset_class
+` package My::ResultSetClass;
+ use base 'DBIx::Class::ResultSet';
+ ...
+
+ $source->resultset_class('My::ResultSet::Class');
+
Set the class of the resultset, this is useful if you want to create your
own resultset methods. Create your own class derived from
-L<DBIx::Class::ResultSet>, and set it here.
+L<DBIx::Class::ResultSet>, and set it here.
=head2 resultset_attributes
-Specify here any attributes you wish to pass to your specialised resultset.
+ $source->resultset_attributes({ order_by => [ 'id' ] });
+
+Specify here any attributes you wish to pass to your specialised
+resultset. For a full list of these, please see
+L<DBIx::Class::ResultSet/ATTRIBUTES>.
=cut
'call it on the schema instead.'
) if scalar @_;
- # disabled until we can figure out a way to do it without consistency issues
- #
- #return $self->{_resultset}
- # if ref $self->{_resultset} eq $self->resultset_class;
- #return $self->{_resultset} =
-
return $self->resultset_class->new(
- $self, $self->{resultset_attributes}
+ $self,
+ {
+ %{$self->{resultset_attributes}},
+ %{$self->schema->default_resultset_attributes}
+ },
);
}
+=head2 source_name
+
+=over 4
+
+=item Arguments: $source_name
+
+=back
+
+Set the name of the result source when it is loaded into a schema.
+This is usefull if you want to refer to a result source by a name other than
+its class name.
+
+ package ArchivedBooks;
+ use base qw/DBIx::Class/;
+ __PACKAGE__->table('books_archive');
+ __PACKAGE__->source_name('Books');
+
+ # from your schema...
+ $schema->resultset('Books')->find(1);
+
+=head2 handle
+
+Obtain a new handle to this source. Returns an instance of a
+L<DBIx::Class::ResultSourceHandle>.
+
+=cut
+
+sub handle {
+ return new DBIx::Class::ResultSourceHandle({
+ schema => $_[0]->schema,
+ source_moniker => $_[0]->source_name
+ });
+}
+
=head2 throw_exception
See L<DBIx::Class::Schema/"throw_exception">.
}
}
+=head2 sqlt_deploy_hook($sqlt_table)
+
+An optional sub which you can declare in your own Schema class that will get
+passed the L<SQL::Translator::Schema::Table> object when you deploy the schema
+via L</create_ddl_dir> or L</deploy>.
+
+For an example of what you can do with this, see
+L<DBIx::Class::Manual::Cookbook/Adding Indexes And Functions To Your SQL>.
+
=head1 AUTHORS
Matt S. Trout <mst@shadowcatsystems.co.uk>
=cut
+1;