use DBIx::Class::ResultSourceHandle;
use DBIx::Class::Exception;
-use Carp::Clan qw/^DBIx::Class/;
+use DBIx::Class::Carp;
use Try::Tiny;
use List::Util 'first';
-use Scalar::Util qw/weaken isweak/;
-use Storable qw/nfreeze thaw/;
+use Scalar::Util qw/blessed weaken isweak/;
use namespace::clean;
use base qw/DBIx::Class/;
-__PACKAGE__->mk_group_accessors('simple' => qw/_ordered_columns
- _columns _primaries _unique_constraints name resultset_attributes
- from _relationships column_info_from_storage source_info
- source_name sqlt_deploy_callback/);
+__PACKAGE__->mk_group_accessors(simple => qw/
+ source_name name source_info
+ _ordered_columns _columns _primaries _unique_constraints
+ _relationships resultset_attributes
+ column_info_from_storage
+/);
-__PACKAGE__->mk_group_accessors('component_class' => qw/resultset_class
- result_class/);
+__PACKAGE__->mk_group_accessors(component_class => qw/
+ resultset_class
+ result_class
+/);
+
+__PACKAGE__->mk_classdata( sqlt_deploy_callback => 'default_sqlt_deploy_hook' );
=head1 NAME
# Create a table based result source, in a result class.
- package MyDB::Schema::Result::Artist;
+ package MyApp::Schema::Result::Artist;
use base qw/DBIx::Class::Core/;
__PACKAGE__->table('artist');
__PACKAGE__->add_columns(qw/ artistid name /);
__PACKAGE__->set_primary_key('artistid');
- __PACKAGE__->has_many(cds => 'MyDB::Schema::Result::CD');
+ __PACKAGE__->has_many(cds => 'MyApp::Schema::Result::CD');
1;
# Create a query (view) based result source, in a result class
- package MyDB::Schema::Result::Year2000CDs;
+ package MyApp::Schema::Result::Year2000CDs;
use base qw/DBIx::Class::Core/;
__PACKAGE__->load_components('InflateColumn::DateTime');
$new->{_relationships} = { %{$new->{_relationships}||{}} };
$new->{name} ||= "!!NAME NOT SET!!";
$new->{_columns_info_loaded} ||= 0;
- $new->{sqlt_deploy_callback} ||= "default_sqlt_deploy_hook";
return $new;
}
will attempt to retrieve the name of the sequence from the database
automatically.
+=item retrieve_on_insert
+
+ { retrieve_on_insert => 1 }
+
+For every column where this is set to true, DBIC will retrieve the RDBMS-side
+value upon a new row insertion (normally only the autoincrement PK is
+retrieved on insert). C<INSERT ... RETURNING> is used automatically if
+supported by the underlying storage, otherwise an extra SELECT statement is
+executed to retrieve the missing data.
+
=item auto_nextval
+ { auto_nextval => 1 }
+
Set this to a true value for a column whose value is retrieved automatically
from a sequence or function (if supported by your Storage driver.) For a
sequence, if you do not use a trigger to get the nextval, you have to set the
my $columns_info = $source->columns_info;
Like L</column_info> but returns information for the requested columns. If
-the optional column-list arrayref is ommitted it returns info on all columns
+the optional column-list arrayref is omitted it returns info on all columns
currently defined on the ResultSource via L</add_columns>.
=cut
my ($self,$seq) = @_;
my @pks = $self->primary_columns
- or next;
+ or return;
$_->{sequence} = $seq
for values %{ $self->columns_info (\@pks) };
=over
-=item Arguments: $callback
+=item Arguments: $callback_name | \&callback_code
+
+=item Return value: $callback_name | \&callback_code
=back
__PACKAGE__->sqlt_deploy_callback('mycallbackmethod');
+ or
+
+ __PACKAGE__->sqlt_deploy_callback(sub {
+ my ($source_instance, $sqlt_table) = @_;
+ ...
+ } );
+
An accessor to set a callback to be called during deployment of
the schema via L<DBIx::Class::Schema/create_ddl_dir> or
L<DBIx::Class::Schema/deploy>.
The callback can be set as either a code reference or the name of a
method in the current result class.
-If not set, the L</default_sqlt_deploy_hook> is called.
+Defaults to L</default_sqlt_deploy_hook>.
Your callback will be passed the $source object representing the
ResultSource instance being deployed, and the
=head2 default_sqlt_deploy_hook
-=over
-
-=item Arguments: $source, $sqlt_table
-
-=item Return value: undefined
-
-=back
-
-This is the sensible default for L</sqlt_deploy_callback>.
-
-If a method named C<sqlt_deploy_hook> exists in your Result class, it
-will be called and passed the current C<$source> and the
-C<$sqlt_table> being deployed.
+This is the default deploy hook implementation which checks if your
+current Result class has a C<sqlt_deploy_hook> method, and if present
+invokes it B<on the Result class directly>. This is to preserve the
+semantics of C<sqlt_deploy_hook> which was originally designed to expect
+the Result class name and the
+L<$sqlt_table instance|SQL::Translator::Schema::Table> of the table being
+deployed.
=cut
retrieval from this source. In the case of a database, the required FROM
clause contents.
+=cut
+
+sub from { die 'Virtual method!' }
+
=head2 schema
=over 4
sub reverse_relationship_info {
my ($self, $rel) = @_;
- my $rel_info = $self->relationship_info($rel);
+
+ my $rel_info = $self->relationship_info($rel)
+ or $self->throw_exception("No such relationship '$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;
+ my $stripped_cond = $self->__strip_relcond ($rel_info->{cond});
+
+ my $rsrc_schema_moniker = $self->source_name
+ if try { $self->schema };
- # Get the related result source for this relationship
- my $othertable = $self->related_source($rel);
+ # this may be a partial schema or something else equally esoteric
+ my $other_rsrc = try { $self->related_source($rel) }
+ or return $ret;
# 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) {
- # this may be a partial schema with the related source not being
- # available at all
- my $back = try { $othertable->related_source($otherrel) } or next;
-
- # did we get back to ourselves?
- next unless $back->source_name eq $self->source_name;
-
- my $otherrel_info = $othertable->relationship_info($otherrel);
-
- next unless ref $otherrel_info->{cond} eq 'HASH';
-
- my @other_cond = keys(%{$otherrel_info->{cond}});
- my @other_refkeys = map {/^\w+\.(\w+)$/} @other_cond;
- my @other_keys = map {$otherrel_info->{cond}{$_} =~ /^\w+\.(\w+)$/} @other_cond;
- next if (!$self->_compare_relationship_keys(\@refkeys, \@other_keys) ||
- !$self->_compare_relationship_keys(\@other_refkeys, \@keys));
- $ret->{$otherrel} = $otherrel_info;
+ # columns are our foreign columns on $rel
+ foreach my $other_rel ($other_rsrc->relationships) {
+
+ # only consider stuff that points back to us
+ # "us" here is tricky - if we are in a schema registration, we want
+ # to use the source_names, otherwise we will use the actual classes
+
+ # the schema may be partial
+ my $roundtrip_rsrc = try { $other_rsrc->related_source($other_rel) }
+ or next;
+
+ if ($rsrc_schema_moniker and try { $roundtrip_rsrc->schema } ) {
+ next unless $rsrc_schema_moniker eq $roundtrip_rsrc->source_name;
+ }
+ else {
+ next unless $self->result_class eq $roundtrip_rsrc->result_class;
+ }
+
+ my $other_rel_info = $other_rsrc->relationship_info($other_rel);
+
+ # this can happen when we have a self-referential class
+ next if $other_rel_info eq $rel_info;
+
+ next unless ref $other_rel_info->{cond} eq 'HASH';
+ my $other_stripped_cond = $self->__strip_relcond($other_rel_info->{cond});
+
+ $ret->{$other_rel} = $other_rel_info if (
+ $self->_compare_relationship_keys (
+ [ keys %$stripped_cond ], [ values %$other_stripped_cond ]
+ )
+ and
+ $self->_compare_relationship_keys (
+ [ values %$stripped_cond ], [ keys %$other_stripped_cond ]
+ )
+ );
}
+
return $ret;
}
+# all this does is removes the foreign/self prefix from a condition
+sub __strip_relcond {
+ +{
+ map
+ { map { /^ (?:foreign|self) \. (\w+) $/x } ($_, $_[1]{$_}) }
+ keys %{$_[1]}
+ }
+}
+
sub compare_relationship_keys {
carp 'compare_relationship_keys is a private method, stop calling it';
my $self = shift;
-alias => $as,
-relation_chain_depth => $seen->{-relation_chain_depth} || 0,
},
- $self->_resolve_condition($rel_info->{cond}, $as, $alias) ];
+ $self->_resolve_condition($rel_info->{cond}, $as, $alias, $join)
+ ];
}
}
$self->_resolve_condition (@_);
}
-# Resolves the passed condition to a concrete query fragment. If given an alias,
-# returns a join condition; if given an object, inverts that object to produce
-# a related conditional from that object.
-our $UNRESOLVABLE_CONDITION = \'1 = 0';
+our $UNRESOLVABLE_CONDITION = \ '1 = 0';
+# Resolves the passed condition to a concrete query fragment and a flag
+# indicating whether this is a cross-table condition. Also an optional
+# list of non-triviail values (notmally conditions) returned as a part
+# of a joinfree condition hash
sub _resolve_condition {
- my ($self, $cond, $as, $for) = @_;
- if (ref $cond eq 'HASH') {
+ my ($self, $cond, $as, $for, $relname) = @_;
+
+ my $obj_rel = !!blessed $for;
+
+ if (ref $cond eq 'CODE') {
+ my $relalias = $obj_rel ? 'me' : $as;
+
+ my ($crosstable_cond, $joinfree_cond) = $cond->({
+ self_alias => $obj_rel ? $as : $for,
+ foreign_alias => $relalias,
+ self_resultsource => $self,
+ foreign_relname => $relname || ($obj_rel ? $as : $for),
+ self_rowobj => $obj_rel ? $for : undef
+ });
+
+ my $cond_cols;
+ if ($joinfree_cond) {
+
+ # FIXME sanity check until things stabilize, remove at some point
+ $self->throw_exception (
+ "A join-free condition returned for relationship '$relname' without a row-object to chain from"
+ ) unless $obj_rel;
+
+ # FIXME another sanity check
+ if (
+ ref $joinfree_cond ne 'HASH'
+ or
+ first { $_ !~ /^\Q$relalias.\E.+/ } keys %$joinfree_cond
+ ) {
+ $self->throw_exception (
+ "The join-free condition returned for relationship '$relname' must be a hash "
+ .'reference with all keys being valid columns on the related result source'
+ );
+ }
+
+ # normalize
+ for (values %$joinfree_cond) {
+ $_ = $_->{'='} if (
+ ref $_ eq 'HASH'
+ and
+ keys %$_ == 1
+ and
+ exists $_->{'='}
+ );
+ }
+
+ # see which parts of the joinfree cond are conditionals
+ my $relcol_list = { map { $_ => 1 } $self->related_source($relname)->columns };
+
+ for my $c (keys %$joinfree_cond) {
+ my ($colname) = $c =~ /^ (?: \Q$relalias.\E )? (.+)/x;
+
+ unless ($relcol_list->{$colname}) {
+ push @$cond_cols, $colname;
+ next;
+ }
+
+ if (
+ ref $joinfree_cond->{$c}
+ and
+ ref $joinfree_cond->{$c} ne 'SCALAR'
+ and
+ ref $joinfree_cond->{$c} ne 'REF'
+ ) {
+ push @$cond_cols, $colname;
+ next;
+ }
+ }
+
+ return wantarray ? ($joinfree_cond, 0, $cond_cols) : $joinfree_cond;
+ }
+ else {
+ return wantarray ? ($crosstable_cond, 1) : $crosstable_cond;
+ }
+ }
+ elsif (ref $cond eq 'HASH') {
my %ret;
foreach my $k (keys %{$cond}) {
my $v = $cond->{$k};
} elsif (!defined $as) { # undef, i.e. "no reverse object"
$ret{$v} = undef;
} else {
- $ret{"${as}.${k}"} = "${for}.${v}";
+ $ret{"${as}.${k}"} = { -ident => "${for}.${v}" };
}
}
- return \%ret;
- } elsif (ref $cond eq 'ARRAY') {
- return [ map { $self->_resolve_condition($_, $as, $for) } @$cond ];
- } else {
- die("Can't handle condition $cond yet :(");
+
+ return wantarray
+ ? ( \%ret, ($obj_rel || !defined $as || ref $as) ? 0 : 1 )
+ : \%ret
+ ;
+ }
+ elsif (ref $cond eq 'ARRAY') {
+ my (@ret, $crosstable);
+ for (@$cond) {
+ my ($cond, $crosstab) = $self->_resolve_condition($_, $as, $for, $relname);
+ push @ret, $cond;
+ $crosstable ||= $crosstab;
+ }
+ return wantarray ? (\@ret, $crosstable) : \@ret;
+ }
+ else {
+ $self->throw_exception ("Can't handle condition $cond for relationship '$relname' yet :(");
}
}
-
# Accepts one or more relationships for the current source and returns an
# array of column names for each of those relationships. Column names are
# prefixed relative to the current source, in accordance with where they appear
"Can't prefetch has_many ${pre} (join cond too complex)")
unless ref($rel_info->{cond}) eq 'HASH';
my $dots = @{[$as_prefix =~ m/\./g]} + 1; # +1 to match the ".${as_prefix}"
+
if (my ($fail) = grep { @{[$_ =~ m/\./g]} == $dots }
keys %{$collapse}) {
my ($last) = ($fail =~ /([^\.]+)$/);
. 'Use at your own risk.'
);
}
+
#my @col = map { (/^self\.(.+)$/ ? ("${as_prefix}.$1") : ()); }
# values %{$rel_info->{cond}};
$collapse->{".${as_prefix}${pre}"} = [ $rel_source->_pri_cols ];
if( !$self->has_relationship( $rel ) ) {
$self->throw_exception("No such relationship '$rel' on " . $self->source_name);
}
- return $self->schema->source($self->relationship_info($rel)->{source});
+
+ # if we are not registered with a schema - just use the prototype
+ # however if we do have a schema - ask for the source by name (and
+ # throw in the process if all fails)
+ if (my $schema = try { $self->schema }) {
+ $schema->source($self->relationship_info($rel)->{source});
+ }
+ else {
+ my $class = $self->relationship_info($rel)->{class};
+ $self->ensure_class_loaded($class);
+ $class->result_source_instance;
+ }
}
=head2 related_class
}
}
-sub STORABLE_freeze { nfreeze($_[0]->handle) }
+sub STORABLE_freeze { Storable::nfreeze($_[0]->handle) }
sub STORABLE_thaw {
my ($self, $cloning, $ice) = @_;
- %$self = %{ (thaw $ice)->resolve };
+ %$self = %{ (Storable::thaw($ice))->resolve };
}
=head2 throw_exception