}
my $rs = (ref $self)->new($self->result_source, $new_attrs);
- if ($rows) {
- $rs->set_cache($rows);
- }
+
+ $rs->set_cache($rows) if ($rows);
+
return $rs;
}
}
# Run the query
- my $rs = $self->search ($query, $attrs);
+ my $rs = $self->search ($query, {result_class => $self->result_class, %$attrs});
if (keys %{$rs->_resolved_attrs->{collapse}}) {
my $row = $rs->next;
carp "Query returned more than one row" if $rs->next;
$tmp_attrs->{as} = 'count';
# read the comment on top of the actual function to see what this does
- $tmp_attrs->{from} = $self->_switch_to_inner_join_if_needed (
+ $tmp_attrs->{from} = $self->result_source->schema->storage->_straight_join_to_node (
$tmp_attrs->{from}, $tmp_attrs->{alias}
);
$sub_attrs->{select} = $rsrc->storage->_subq_count_select ($rsrc, $sub_attrs);
# read the comment on top of the actual function to see what this does
- $sub_attrs->{from} = $self->_switch_to_inner_join_if_needed (
+ $sub_attrs->{from} = $self->result_source->schema->storage->_straight_join_to_node (
$sub_attrs->{from}, $sub_attrs->{alias}
);
- # this is so that ordering can be thrown away in things like Top limit
+ # this is so that the query can be simplified e.g.
+ # * non-limiting joins can be pruned
+ # * ordering can be thrown away in things like Top limit
$sub_attrs->{-for_count_only} = 1;
my $sub_rs = $rsrc->resultset_class->new ($rsrc, $sub_attrs);
return $self->_count_rs ($attrs);
}
-
-# The DBIC relationship chaining implementation is pretty simple - every
-# new related_relationship is pushed onto the {from} stack, and the {select}
-# window simply slides further in. This means that when we count somewhere
-# in the middle, we got to make sure that everything in the join chain is an
-# actual inner join, otherwise the count will come back with unpredictable
-# results (a resultset may be generated with _some_ rows regardless of if
-# the relation which the $rs currently selects has rows or not). E.g.
-# $artist_rs->cds->count - normally generates:
-# SELECT COUNT( * ) FROM artist me LEFT JOIN cd cds ON cds.artist = me.artistid
-# which actually returns the number of artists * (number of cds || 1)
-#
-# So what we do here is crawl {from}, determine if the current alias is at
-# the top of the stack, and if not - make sure the chain is inner-joined down
-# to the root.
-#
-sub _switch_to_inner_join_if_needed {
- my ($self, $from, $alias) = @_;
-
- # subqueries and other oddness is naturally not supported
- return $from if (
- ref $from ne 'ARRAY'
- ||
- @$from <= 1
- ||
- ref $from->[0] ne 'HASH'
- ||
- ! $from->[0]{-alias}
- ||
- $from->[0]{-alias} eq $alias
- );
-
- my $switch_branch;
- JOINSCAN:
- for my $j (@{$from}[1 .. $#$from]) {
- if ($j->[0]{-alias} eq $alias) {
- $switch_branch = $j->[0]{-join_path};
- last JOINSCAN;
- }
- }
-
- # something else went wrong
- return $from unless $switch_branch;
-
- # So it looks like we will have to switch some stuff around.
- # local() is useless here as we will be leaving the scope
- # anyway, and deep cloning is just too fucking expensive
- # So replace the inner hashref manually
- my @new_from = ($from->[0]);
- my $sw_idx = { map { $_ => 1 } @$switch_branch };
-
- for my $j (@{$from}[1 .. $#$from]) {
- my $jalias = $j->[0]{-alias};
-
- if ($sw_idx->{$jalias}) {
- my %attrs = %{$j->[0]};
- delete $attrs{-join_type};
- push @new_from, [
- \%attrs,
- @{$j}[ 1 .. $#$j ],
- ];
- }
- else {
- push @new_from, $j;
- }
- }
-
- return \@new_from;
-}
-
-
sub _bool {
return 1;
}
my $rsrc = $self->result_source;
+ # if a condition exists we need to strip all table qualifiers
+ # if this is not possible we'll force a subquery below
+ my $cond = $rsrc->schema->storage->_strip_cond_qualifiers ($self->{cond});
+
my $needs_group_by_subq = $self->_has_resolved_attr (qw/collapse group_by -join/);
- my $needs_subq = $self->_has_resolved_attr (qw/row offset/);
+ my $needs_subq = (not defined $cond) || $self->_has_resolved_attr(qw/row offset/);
if ($needs_group_by_subq or $needs_subq) {
return $rsrc->storage->$op(
$rsrc,
$op eq 'update' ? $values : (),
- $self->_cond_for_update_delete,
+ $cond,
);
}
}
-
-# _cond_for_update_delete
-#
-# update/delete require the condition to be modified to handle
-# the differing SQL syntax available. This transforms the $self->{cond}
-# appropriately, returning the new condition.
-
-sub _cond_for_update_delete {
- my ($self, $full_cond) = @_;
- my $cond = {};
-
- $full_cond ||= $self->{cond};
- # No-op. No condition, we're updating/deleting everything
- return $cond unless ref $full_cond;
-
- if (ref $full_cond eq 'ARRAY') {
- $cond = [
- map {
- my %hash;
- foreach my $key (keys %{$_}) {
- $key =~ /([^.]+)$/;
- $hash{$1} = $_->{$key};
- }
- \%hash;
- } @{$full_cond}
- ];
- }
- elsif (ref $full_cond eq 'HASH') {
- if ((keys %{$full_cond})[0] eq '-and') {
- $cond->{-and} = [];
- my @cond = @{$full_cond->{-and}};
- for (my $i = 0; $i < @cond; $i++) {
- my $entry = $cond[$i];
- my $hash;
- if (ref $entry eq 'HASH') {
- $hash = $self->_cond_for_update_delete($entry);
- }
- else {
- $entry =~ /([^.]+)$/;
- $hash->{$1} = $cond[++$i];
- }
- push @{$cond->{-and}}, $hash;
- }
- }
- else {
- foreach my $key (keys %{$full_cond}) {
- $key =~ /([^.]+)$/;
- $cond->{$1} = $full_cond->{$key};
- }
- }
- }
- else {
- $self->throw_exception("Can't update/delete on resultset with condition unless hash or array");
- }
-
- return $cond;
-}
-
-
=head2 update
=over 4
}
return wantarray ? @created : \@created;
} else {
- my ($first, @rest) = @$data;
-
- require overload;
- my @names = grep {
- (not ref $first->{$_}) || (ref $first->{$_} eq 'SCALAR') ||
- (overload::Method($first->{$_}, '""'))
- } keys %$first;
+ my $first = $data->[0];
+
+ # if a column is a registered relationship, and is a non-blessed hash/array, consider
+ # it relationship data
+ my (@rels, @columns);
+ for (keys %$first) {
+ my $ref = ref $first->{$_};
+ $self->result_source->has_relationship($_) && ($ref eq 'ARRAY' or $ref eq 'HASH')
+ ? push @rels, $_
+ : push @columns, $_
+ ;
+ }
- my @rels = grep { $self->result_source->has_relationship($_) } keys %$first;
my @pks = $self->result_source->primary_columns;
## do the belongs_to relationships
delete $data->[$index]->{$rel};
$data->[$index] = {%{$data->[$index]}, %$related};
- push @names, keys %$related if $index == 0;
+ push @columns, keys %$related if $index == 0;
}
}
## do bulk insert on current row
- my @values = map { [ @$_{@names} ] } @$data;
-
$self->result_source->storage->insert_bulk(
$self->result_source,
- \@names,
- \@values,
+ \@columns,
+ [ map { [ @$_{@columns} ] } @$data ],
);
## do the has_many relationships
}
else {
$attrs->{group_by} = [ grep { !ref($_) || (ref($_) ne 'HASH') } @{$attrs->{select}} ];
+
+ # add any order_by parts that are not already present in the group_by
+ # we need to be careful not to add any named functions/aggregates
+ # i.e. select => [ ... { count => 'foo', -as 'foocount' } ... ]
+ my %already_grouped = map { $_ => 1 } (@{$attrs->{group_by}});
+
+ my $storage = $self->result_source->schema->storage;
+ my $rs_column_list = $storage->_resolve_column_info ($attrs->{from});
+ my @chunks = $storage->sql_maker->_order_by_chunks ($attrs->{order_by});
+
+ for my $chunk (map { ref $_ ? @$_ : $_ } (@chunks) ) {
+ $chunk =~ s/\s+ (?: ASC|DESC ) \s* $//ix;
+ if ($rs_column_list->{$chunk} && not $already_grouped{$chunk}++) {
+ push @{$attrs->{group_by}}, $chunk;
+ }
+ }
}
}