use warnings;
use base qw/DBIx::Class/;
-use Carp::Clan qw/^DBIx::Class/;
+
+use DBIx::Class::Exception;
use Scalar::Util ();
-use Scope::Guard;
###
### Internal method
sub __new_related_find_or_new_helper {
my ($self, $relname, $data) = @_;
- if ($self->__their_pk_needs_us($relname, $data)) {
+
+ # create a mock-object so all new/set_column component overrides will run:
+ my $rel_rs = $self->result_source
+ ->related_source($relname)
+ ->resultset;
+ my $new_rel_obj = $rel_rs->new_result($data);
+ my $proc_data = { $new_rel_obj->get_columns };
+
+ if ($self->__their_pk_needs_us($relname)) {
MULTICREATE_DEBUG and warn "MC $self constructing $relname via new_result";
- return $self->result_source
- ->related_source($relname)
- ->resultset
- ->new_result($data);
+ return $new_rel_obj;
}
- if ($self->result_source->_pk_depends_on($relname, $data)) {
- MULTICREATE_DEBUG and warn "MC $self constructing $relname via find_or_new";
- return $self->result_source
- ->related_source($relname)
- ->resultset
- ->find_or_new($data);
+ elsif ($self->result_source->_pk_depends_on($relname, $proc_data )) {
+ if (! keys %$proc_data) {
+ # there is nothing to search for - blind create
+ MULTICREATE_DEBUG and warn "MC $self constructing default-insert $relname";
+ }
+ else {
+ MULTICREATE_DEBUG and warn "MC $self constructing $relname via find_or_new";
+ # this is not *really* find or new, as we don't want to double-new the
+ # data (thus potentially double encoding or whatever)
+ my $exists = $rel_rs->find ($proc_data);
+ return $exists if $exists;
+ }
+ return $new_rel_obj;
+ }
+ else {
+ my $us = $self->source_name;
+ $self->throw_exception ("'$us' neither depends nor is depended on by '$relname', something is wrong...");
}
- MULTICREATE_DEBUG and warn "MC $self constructing $relname via find_or_new_related";
- return $self->find_or_new_related($relname, $data);
}
sub __their_pk_needs_us { # this should maybe be in resultsource.
- my ($self, $relname, $data) = @_;
+ my ($self, $relname) = @_;
my $source = $self->result_source;
my $reverse = $source->reverse_relationship_info($relname);
my $rel_source = $source->related_source($relname);
$new->result_source($source);
}
- if (my $related = delete $attrs->{-from_resultset}) {
+ if (my $related = delete $attrs->{-cols_from_relations}) {
@{$new->{_ignore_at_insert}={}}{@$related} = ();
}
foreach my $key (keys %$attrs) {
if (ref $attrs->{$key}) {
## Can we extract this lot to use with update(_or .. ) ?
- confess "Can't do multi-create without result source" unless $source;
+ $new->throw_exception("Can't do multi-create without result source")
+ unless $source;
my $info = $source->relationship_info($key);
- if ($info && $info->{attrs}{accessor}
- && $info->{attrs}{accessor} eq 'single')
- {
+ my $acc_type = $info->{attrs}{accessor} || '';
+ if ($acc_type eq 'single') {
my $rel_obj = delete $attrs->{$key};
if(!Scalar::Util::blessed($rel_obj)) {
$rel_obj = $new->__new_related_find_or_new_helper($key, $rel_obj);
$related->{$key} = $rel_obj;
next;
- } elsif ($info && $info->{attrs}{accessor}
- && $info->{attrs}{accessor} eq 'multi'
- && ref $attrs->{$key} eq 'ARRAY') {
+ }
+ elsif ($acc_type eq 'multi' && ref $attrs->{$key} eq 'ARRAY' ) {
my $others = delete $attrs->{$key};
my $total = @$others;
my @objects;
}
$related->{$key} = \@objects;
next;
- } elsif ($info && $info->{attrs}{accessor}
- && $info->{attrs}{accessor} eq 'filter')
- {
+ }
+ elsif ($acc_type eq 'filter') {
## 'filter' should disappear and get merged in with 'single' above!
my $rel_obj = delete $attrs->{$key};
if(!Scalar::Util::blessed($rel_obj)) {
MULTICREATE_DEBUG and warn "MC $self pre-reconstructing $relname $rel_obj\n";
my $them = { %{$rel_obj->{_relationship_data} || {} }, $rel_obj->get_inflated_columns };
- my $re = $self->result_source
- ->related_source($relname)
- ->resultset
- ->find_or_create($them);
+ my $existing;
+
+ # if there are no keys - nothing to search for
+ if (keys %$them and $existing = $self->result_source
+ ->related_source($relname)
+ ->resultset
+ ->find($them)
+ ) {
+ %{$rel_obj} = %{$existing};
+ }
+ else {
+ $rel_obj->insert;
+ }
- %{$rel_obj} = %{$re};
$self->{_rel_in_storage}{$relname} = 1;
}
$self->store_column($auto_pri[$_] => $ids[$_]) for 0 .. $#ids;
}
-
$self->{_dirty_columns} = {};
$self->{related_resultsets} = {};
foreach my $relname (keys %related_stuff) {
- my $rel_obj = $related_stuff{$relname};
- my @cands;
- if (Scalar::Util::blessed($rel_obj)
- && $rel_obj->isa('DBIx::Class::Row'))
- {
- @cands = ($rel_obj);
- }
- elsif (ref $rel_obj eq 'ARRAY') {
- @cands = @$rel_obj;
- }
+ next unless $source->has_relationship ($relname);
+
+ my @cands = ref $related_stuff{$relname} eq 'ARRAY'
+ ? @{$related_stuff{$relname}}
+ : $related_stuff{$relname}
+ ;
- if (@cands) {
+ if (@cands
+ && Scalar::Util::blessed($cands[0])
+ && $cands[0]->isa('DBIx::Class::Row')
+ ) {
my $reverse = $source->reverse_relationship_info($relname);
foreach my $obj (@cands) {
$obj->set_from_related($_, $self) for keys %$reverse;
my $them = { %{$obj->{_relationship_data} || {} }, $obj->get_inflated_columns };
- if ($self->__their_pk_needs_us($relname, $them)) {
+ if ($self->__their_pk_needs_us($relname)) {
if (exists $self->{_ignore_at_insert}{$relname}) {
MULTICREATE_DEBUG and warn "MC $self skipping post-insert on $relname";
} else {
sub in_storage {
my ($self, $val) = @_;
$self->{_in_storage} = $val if @_ > 1;
- return $self->{_in_storage};
+ return $self->{_in_storage} ? 1 : 0;
}
=head2 update
according to L</in_storage>.
This method issues an SQL UPDATE query to commit any changes to the
-object to the database if required.
+object to the database if required (see L</get_dirty_columns>).
+It throws an exception if a proper WHERE clause uniquely identifying
+the database row can not be constructed (see
+L<significance of primary keys|DBIx::Class::Manual::Intro/The Significance and Importance of Primary Keys>
+for more details).
Also takes an optional hashref of C<< column_name => value> >> pairs
to update on the object first. Be aware that the hashref will be
to C<update>, e.g. ( { %{ $href } } )
If the values passed or any of the column values set on the object
-contain scalar references, eg:
+contain scalar references, e.g.:
$row->last_modified(\'NOW()');
# OR
sub update {
my ($self, $upd) = @_;
$self->throw_exception( "Not in database" ) unless $self->in_storage;
- my $ident_cond = $self->ident_condition;
- $self->throw_exception("Cannot safely update a row in a PK-less table")
+
+ my $ident_cond = $self->{_orig_ident} || $self->ident_condition;
+
+ $self->throw_exception('Unable to update a row with incomplete or no identity')
if ! keys %$ident_cond;
$self->set_inflated_columns($upd) if $upd;
my %to_update = $self->get_dirty_columns;
return $self unless keys %to_update;
my $rows = $self->result_source->storage->update(
- $self->result_source, \%to_update,
- $self->{_orig_ident} || $ident_cond
- );
+ $self->result_source, \%to_update, $ident_cond
+ );
if ($rows == 0) {
$self->throw_exception( "Can't update ${self}: row not found" );
} elsif ($rows > 1) {
}
$self->{_dirty_columns} = {};
$self->{related_resultsets} = {};
- undef $self->{_orig_ident};
+ delete $self->{_orig_ident};
return $self;
}
=back
Throws an exception if the object is not in the database according to
-L</in_storage>. Runs an SQL DELETE statement using the primary key
-values to locate the row.
+L</in_storage>. Also throws an exception if a proper WHERE clause
+uniquely identifying the database row can not be constructed (see
+L<significance of primary keys|DBIx::Class::Manual::Intro/The Significance and Importance of Primary Keys>
+for more details).
The object is still perfectly usable, but L</in_storage> will
now return 0 and the object must be reinserted using L</insert>
this behaviour off, pass C<< cascade_delete => 0 >> in the C<$attr>
hashref of the relationship, see L<DBIx::Class::Relationship>. Any
database-level cascade or restrict will take precedence over a
-DBIx-Class-based cascading delete.
+DBIx-Class-based cascading delete, since DBIx-Class B<deletes the
+main row first> and only then attempts to delete any remaining related
+rows.
If you delete an object within a txn_do() (see L<DBIx::Class::Storage/txn_do>)
and the transaction subsequently fails, the row object will remain marked as
my $self = shift;
if (ref $self) {
$self->throw_exception( "Not in database" ) unless $self->in_storage;
+
my $ident_cond = $self->{_orig_ident} || $self->ident_condition;
- $self->throw_exception("Cannot safely delete a row in a PK-less table")
+ $self->throw_exception('Unable to delete a row with incomplete or no identity')
if ! keys %$ident_cond;
- foreach my $column (keys %$ident_cond) {
- $self->throw_exception("Can't delete the object unless it has loaded the primary keys")
- unless exists $self->{_column_data}{$column};
- }
+
$self->result_source->storage->delete(
- $self->result_source, $ident_cond);
+ $self->result_source, $ident_cond
+ );
+
+ delete $self->{_orig_ident};
$self->in_storage(undef);
- } else {
+ }
+ else {
$self->throw_exception("Can't do class delete without a ResultSource instance")
unless $self->can('result_source_instance');
my $attrs = @_ > 1 && ref $_[$#_] eq 'HASH' ? { %{pop(@_)} } : {};
sub get_inflated_columns {
my $self = shift;
- return map {
- my $accessor = $self->column_info($_)->{'accessor'} || $_;
- ($_ => $self->$accessor);
- } grep $self->has_column_loaded($_), $self->columns;
+
+ my %loaded_colinfo = (map
+ { $_ => $self->column_info($_) }
+ (grep { $self->has_column_loaded($_) } $self->columns)
+ );
+
+ my %inflated;
+ for my $col (keys %loaded_colinfo) {
+ if (exists $loaded_colinfo{$col}{accessor}) {
+ my $acc = $loaded_colinfo{$col}{accessor};
+ $inflated{$col} = $self->$acc if defined $acc;
+ }
+ else {
+ $inflated{$col} = $self->$col;
+ }
+ }
+
+ # return all loaded columns with the inflations overlayed on top
+ return ($self->get_columns, %inflated);
+}
+
+sub _is_column_numeric {
+ my ($self, $column) = @_;
+ my $colinfo = $self->column_info ($column);
+
+ # cache for speed (the object may *not* have a resultsource instance)
+ if (not defined $colinfo->{is_numeric} && $self->_source_handle) {
+ $colinfo->{is_numeric} =
+ $self->result_source->schema->storage->is_datatype_numeric ($colinfo->{data_type})
+ ? 1
+ : 0
+ ;
+ }
+
+ return $colinfo->{is_numeric};
}
=head2 set_column
sub set_column {
my ($self, $column, $new_value) = @_;
- $self->{_orig_ident} ||= $self->ident_condition;
- my $old_value = $self->get_column($column);
+ # if we can't get an ident condition on first try - mark the object as unidentifiable
+ $self->{_orig_ident} ||= (eval { $self->ident_condition }) || {};
- $self->store_column($column, $new_value);
+ my $old_value = $self->get_column($column);
+ $new_value = $self->store_column($column, $new_value);
my $dirty;
if (!$self->in_storage) { # no point tracking dirtyness on uninserted data
$dirty = 0;
}
else { # do a numeric comparison if datatype allows it
- my $colinfo = $self->column_info ($column);
-
- # cache for speed (the object may *not* have a resultsource instance)
- if (not defined $colinfo->{is_numeric} && $self->_source_handle) {
- $colinfo->{is_numeric} =
- $self->result_source->schema->storage->is_datatype_numeric ($colinfo->{data_type})
- ? 1
- : 0
- ;
- }
-
- if ($colinfo->{is_numeric}) {
+ if ($self->_is_column_numeric($column)) {
$dirty = $old_value != $new_value;
}
else {
L<DBIx::Class::Relationship/has_many> key, and create the related
objects if necessary.
-Be aware that the input hashref might be edited in place, so dont rely
+Be aware that the input hashref might be edited in place, so don't rely
on it being the same after a call to C<set_inflated_columns>. If you
need to preserve the hashref, it is sufficient to pass a shallow copy
to C<set_inflated_columns>, e.g. ( { %{ $href } } )
foreach my $key (keys %$upd) {
if (ref $upd->{$key}) {
my $info = $self->relationship_info($key);
- if ($info && $info->{attrs}{accessor}
- && $info->{attrs}{accessor} eq 'single')
- {
+ my $acc_type = $info->{attrs}{accessor} || '';
+ if ($acc_type eq 'single') {
my $rel = delete $upd->{$key};
$self->set_from_related($key => $rel);
$self->{_relationship_data}{$key} = $rel;
- } elsif ($info && $info->{attrs}{accessor}
- && $info->{attrs}{accessor} eq 'multi') {
- $self->throw_exception(
- "Recursive update is not supported over relationships of type multi ($key)"
- );
}
- elsif ($self->has_column($key)
- && exists $self->column_info($key)->{_inflate_info})
- {
+ elsif ($acc_type eq 'multi') {
+ $self->throw_exception(
+ "Recursive update is not supported over relationships of type '$acc_type' ($key)"
+ );
+ }
+ elsif ($self->has_column($key) && exists $self->column_info($key)->{_inflate_info}) {
$self->set_inflated_column($key, delete $upd->{$key});
}
}
the new object.
Relationships will be followed by the copy procedure B<only> if the
-relationship specifes a true value for its
+relationship specifies a true value for its
L<cascade_copy|DBIx::Class::Relationship::Base> attribute. C<cascade_copy>
is set by default on C<has_many> relationships and unset on all others.
$new->insert;
# Its possible we'll have 2 relations to the same Source. We need to make
- # sure we don't try to insert the same row twice esle we'll violate unique
+ # sure we don't try to insert the same row twice else we'll violate unique
# constraints
my $rels_copied = {};
my ($source_handle) = $source;
if ($source->isa('DBIx::Class::ResultSourceHandle')) {
- $source = $source_handle->resolve
- } else {
- $source_handle = $source->handle
+ $source = $source_handle->resolve
+ }
+ else {
+ $source_handle = $source->handle
}
my $new = {
};
bless $new, (ref $class || $class);
- my $schema;
foreach my $pre (keys %{$prefetch||{}}) {
- my $pre_val = $prefetch->{$pre};
- my $pre_source = $source->related_source($pre);
- $class->throw_exception("Can't prefetch non-existent relationship ${pre}")
- unless $pre_source;
- if (ref($pre_val->[0]) eq 'ARRAY') { # multi
- my @pre_objects;
- for my $me_pref (@$pre_val) {
+ my $pre_source = $source->related_source($pre)
+ or $class->throw_exception("Can't prefetch non-existent relationship ${pre}");
+ my $accessor = $source->relationship_info($pre)->{attrs}{accessor}
+ or $class->throw_exception("No accessor for prefetched $pre");
+
+ my @pre_vals;
+ if (ref $prefetch->{$pre}[0] eq 'ARRAY') {
+ @pre_vals = @{$prefetch->{$pre}};
+ }
+ elsif ($accessor eq 'multi') {
+ $class->throw_exception("Implicit prefetch (via select/columns) not supported with accessor 'multi'");
+ }
+ else {
+ @pre_vals = $prefetch->{$pre};
+ }
+
+ my @pre_objects;
+ for my $me_pref (@pre_vals) {
+
+ # FIXME - this should not be necessary
# the collapser currently *could* return bogus elements with all
# columns set to undef
my $has_def;
push @pre_objects, $pre_source->result_class->inflate_result(
$pre_source, @$me_pref
);
- }
+ }
- $new->related_resultset($pre)->set_cache(\@pre_objects);
- } elsif (defined $pre_val->[0]) {
- my $fetched;
- unless ($pre_source->primary_columns == grep { exists $pre_val->[0]{$_}
- and !defined $pre_val->[0]{$_} } $pre_source->primary_columns)
- {
- $fetched = $pre_source->result_class->inflate_result(
- $pre_source, @{$pre_val});
- }
- my $accessor = $source->relationship_info($pre)->{attrs}{accessor};
- $class->throw_exception("No accessor for prefetched $pre")
- unless defined $accessor;
- if ($accessor eq 'single') {
- $new->{_relationship_data}{$pre} = $fetched;
- } elsif ($accessor eq 'filter') {
- $new->{_inflated_column}{$pre} = $fetched;
- } else {
- $class->throw_exception("Implicit prefetch (via select/columns) not supported with accessor '$accessor'");
- }
- $new->related_resultset($pre)->set_cache([ $fetched ]);
+ if ($accessor eq 'single') {
+ $new->{_relationship_data}{$pre} = $pre_objects[0];
}
+ elsif ($accessor eq 'filter') {
+ $new->{_inflated_column}{$pre} = $pre_objects[0];
+ }
+
+ $new->related_resultset($pre)->set_cache(\@pre_objects);
}
$new->in_storage (1);
=back
Fetches a fresh copy of the Row object from the database and returns it.
-
-If passed the \%attrs argument, will first apply these attributes to
+Throws an exception if a proper WHERE clause identifying the database row
+can not be constructed (i.e. if the original object does not contain its
+entire
+ L<primary key|DBIx::Class::Manual::Intro/The Significance and Importance of Primary Keys>
+). If passed the \%attrs argument, will first apply these attributes to
the resultset used to find the row.
This copy can then be used to compare to an existing row object, to
$resultset = $resultset->search(undef, $attrs);
}
- return $resultset->find($self->{_orig_ident} || $self->ident_condition);
+ my $ident_cond = $self->{_orig_ident} || $self->ident_condition;
+
+ $self->throw_exception('Unable to requery a row with incomplete or no identity')
+ if ! keys %$ident_cond;
+
+ return $resultset->find($ident_cond);
}
=head2 discard_changes ($attrs)
Re-selects the row from the database, losing any changes that had
-been made.
+been made. Throws an exception if a proper WHERE clause identifying
+the database row can not be constructed (i.e. if the original object
+does not contain its entire
+L<primary key|DBIx::Class::Manual::Intro/The Significance and Importance of Primary Keys>
+).
This method can also be used to refresh from storage, retrieving any
changes made since the row was last read from storage.
sub throw_exception {
my $self=shift;
+
if (ref $self && ref $self->result_source && $self->result_source->schema) {
- $self->result_source->schema->throw_exception(@_);
- } else {
- croak(@_);
+ $self->result_source->schema->throw_exception(@_)
+ }
+ else {
+ DBIx::Class::Exception->throw(@_);
}
}