my $rs = $schema->resultset('CD')->search({ title => '100th Window' });
-IMPORTANT: If called on an object, proxies to new_result instead so
+=over
+
+=item WARNING
+
+If called on an object, proxies to L</new_result> instead, so
my $cd = $schema->resultset('CD')->new({ title => 'Spoon' });
-will return a CD object, not a ResultSet.
+will return a CD object, not a ResultSet, and is equivalent to:
+
+ my $cd = $schema->resultset('CD')->new_result({ title => 'Spoon' });
+
+Please also keep in mind that many internals call C<new_result> directly,
+so overloading this method with the idea of intercepting new result object
+creation B<will not work>. See also warning pertaining to L</create>.
+
+=back
=cut
=head2 search_literal
+B<CAVEAT>: C<search_literal> is provided for Class::DBI compatibility and
+should only be used in that context. C<search_literal> is a convenience
+method. It is equivalent to calling C<< $schema->search(\[]) >>, but if you
+want to ensure columns are bound correctly, use L</search>.
+
+See L<DBIx::Class::Manual::Cookbook/Searching> and
+L<DBIx::Class::Manual::FAQ/Searching> for searching techniques that do not
+require C<search_literal>.
+
=over 4
-=item Arguments: $sql_fragment, @bind_values
+=item Arguments: $sql_fragment, @standalone_bind_values
=item Return Value: $resultset (scalar context) || @row_objs (list context)
Pass a literal chunk of SQL to be added to the conditional part of the
resultset query.
-CAVEAT: C<search_literal> is provided for Class::DBI compatibility and should
-only be used in that context. C<search_literal> is a convenience method.
-It is equivalent to calling $schema->search(\[]), but if you want to ensure
-columns are bound correctly, use C<search>.
-
Example of how to use C<search> instead of C<search_literal>
my @cds = $cd_rs->search_literal('cdid = ? AND (artist = ? OR artist = ?)', (2, 1, 2));
my @cds = $cd_rs->search(\[ 'cdid = ? AND (artist = ? OR artist = ?)', [ 'cdid', 2 ], [ 'artist', 1 ], [ 'artist', 2 ] ]);
-
-See L<DBIx::Class::Manual::Cookbook/Searching> and
-L<DBIx::Class::Manual::FAQ/Searching> for searching techniques that do not
-require C<search_literal>.
-
=cut
sub search_literal {
if ( @bind && ref($bind[-1]) eq 'HASH' ) {
$attr = pop @bind;
}
- return $self->search(\[ $sql, map [ __DUMMY__ => $_ ], @bind ], ($attr || () ));
+ return $self->search(\[ $sql, map [ {} => $_ ], @bind ], ($attr || () ));
}
=head2 find
# Run the query, passing the result_class since it should propagate for find
my $rs = $self->search ($final_cond, {result_class => $self->result_class, %$attrs});
- if ($rs->_resolved_attrs->{collapse}) {
+ if (keys %{$rs->_resolved_attrs->{collapse}}) {
my $row = $rs->next;
carp "Query returned more than one row" if $rs->next;
return $row;
and
!$ENV{DBIC_NULLABLE_KEY_NOWARN}
and
- my @undefs = grep { ! defined $final_cond->{$_} } (keys %$final_cond)
+ my @undefs = sort grep { ! defined $final_cond->{$_} } (keys %$final_cond)
) {
carp_unique ( sprintf (
"NULL/undef values supplied for requested unique constraint '%s' (NULL "
my $attrs = $self->_resolved_attrs_copy;
- if ($attrs->{collapse}) {
+ if (keys %{$attrs->{collapse}}) {
$self->throw_exception(
'single() can not be used on resultsets prefetching has_many. Use find( \%cond ) or next() instead'
);
$attrs->{where}, $attrs
);
- return @data
- ? ($self->_construct_objects(@data))[0]
- : undef
- ;
+ return (@data ? ($self->_construct_object(@data))[0] : undef);
}
: $self->cursor->next
);
return undef unless (@row);
- my ($row, @more) = $self->_construct_objects(@row);
+ my ($row, @more) = $self->_construct_object(@row);
$self->{stashed_objects} = \@more if @more;
return $row;
}
-# takes a single DBI-row of data and coinstructs as many objects
-# as the resultset attributes call for.
-# This can be a bit of an action at a distance - it takes as an argument
-# the *current* cursor-row (already taken off the $sth), but if
-# collapsing is requested it will keep advancing the cursor either
-# until the current row-object is assembled (the collapser was able to
-# order the result sensibly) OR until the cursor is exhausted (an
-# unordered collapsing resultset effectively triggers ->all)
-
-# FIXME: why the *FUCK* do we pass around DBI data by copy?! Sadly needs
-# assessment before changing...
-#
-sub _construct_objects {
+sub _construct_object {
my ($self, @row) = @_;
- my $attrs = $self->_resolved_attrs;
- my $keep_collapsing = $attrs->{collapse};
-
- my $res_index;
-=begin
- do {
- my $me_pref_col = $attrs->{_row_parser}->($row_ref);
-
- my $container;
- if ($keep_collapsing) {
-
- # FIXME - we should be able to remove these 2 checks after the design validates
- $self->throw_exception ('Collapsing without a top-level collapse-set... can not happen')
- unless @{$me_ref_col->[2]};
- $self->throw_exception ('Top-level collapse-set contains a NULL-value... can not happen')
- if grep { ! defined $_ } @{$me_pref_col->[2]};
- my $main_ident = join "\x00", @{$me_pref_col->[2]};
-
- if (! $res_index->{$main_ident}) {
- # this is where we bail out IFF we are ordered, and the $main_ident changes
-
- $res_index->{$main_ident} = {
- all_me_pref => [,
- index => scalar keys %$res_index,
- };
- }
- }
-
-
-
- $container = $res_index->{$main_ident}{container};
- };
-
- push @$container, [ @{$me_pref_col}[0,1] ];
-
-
-
- } while (
- $keep_collapsing
- &&
- do { $row_ref = [$self->cursor->next]; $self->{stashed_row} = $row_ref if @$row_ref; scalar @$row_ref }
- );
-
- # attempt collapse all rows with same collapse identity
- if (@to_collapse > 1) {
- my @collapsed;
- while (@to_collapse) {
- $self->_merge_result(\@collapsed, shift @to_collapse);
- }
- }
-=cut
-
- my $mepref_structs = $self->_collapse_result($attrs->{as}, \@row, $keep_collapsing)
+ my $info = $self->_collapse_result($self->{_attrs}{as}, \@row)
or return ();
-
- my $rsrc = $self->result_source;
- my $res_class = $self->result_class;
- my $inflator = $res_class->can ('inflate_result');
-
- my @objs =
- $res_class->$inflator ($rsrc, @$mepref_structs);
-
- if (my $f = $attrs->{record_filter}) {
- @objs = map { $f->($_) } @objs;
- }
-
- return @objs;
+ my @new = $self->result_class->inflate_result($self->result_source, @$info);
+ @new = $self->{_attrs}{record_filter}->(@new)
+ if exists $self->{_attrs}{record_filter};
+ return @new;
}
-
sub _collapse_result {
- my ( $self, $as_proto, $row_ref, $keep_collapsing ) = @_;
- my $collapse = $self->_resolved_attrs->{collapse};
- my $parser = $self->result_source->_mk_row_parser( $as_proto, $collapse );
- my $result = [];
- my $register = {};
- my $rel_register = {};
-
- my @row = @$row_ref;
- do {
- my $row = $parser->( \@row );
-
- # init register
- $self->_check_register( $register, $row ) unless ( keys %$register );
-
- $self->_merge_result( $result, $row, $rel_register )
- if ( !$collapse
- || ( $collapse = $self->_check_register( $register, $row ) ) );
-
- } while (
- $collapse
- && do { @row = $self->cursor->next; $self->{stashed_row} = \@row if @row; }
-
- # run this as long as there is a next row and we are not yet done collapsing
- );
- return $result;
-}
+ my ($self, $as_proto, $row) = @_;
+ my @copy = @$row;
+ # 'foo' => [ undef, 'foo' ]
+ # 'foo.bar' => [ 'foo', 'bar' ]
+ # 'foo.bar.baz' => [ 'foo.bar', 'baz' ]
-# Taubenschlag
-sub _check_register {
- my ( $self, $register, $obj ) = @_;
- return undef unless ( ref $obj eq 'ARRAY' && ref $obj->[2] eq 'ARRAY' );
- my @ids = @{ $obj->[2] };
- while ( defined( my $id = shift @ids ) ) {
- return $register->{$id} if ( exists $register->{$id} && !@ids );
- $register->{$id} = @ids ? {} : $obj unless ( exists $register->{$id} );
- $register = $register->{$id};
- }
- return undef;
-}
+ my @construct_as = map { [ (/^(?:(.*)\.)?([^.]+)$/) ] } @$as_proto;
-sub _merge_result {
- my ( $self, $result, $row, $register ) = @_;
- return @$result = @$row if ( @$result == 0 ); # initialize with $row
+ my %collapse = %{$self->{_attrs}{collapse}||{}};
- my ( undef, $rels, $ids ) = @$result;
- my ( undef, $new_rels, $new_ids ) = @$row;
+ my @pri_index;
- my @rels = keys %{ { %{$rels||{} }, %{ $new_rels||{} } } };
- foreach my $rel (@rels) {
- $register = $register->{$rel} ||= {};
+ # if we're doing collapsing (has_many prefetch) we need to grab records
+ # until the PK changes, so fill @pri_index. if not, we leave it empty so
+ # we know we don't have to bother.
- my $new_data = $new_rels->{$rel};
- my $data = $rels->{$rel};
- @$data = [@$data] unless ( ref $data->[0] eq 'ARRAY' );
+ # the reason for not using the collapse stuff directly is because if you
+ # had for e.g. two artists in a row with no cds, the collapse info for
+ # both would be NULL (undef) so you'd lose the second artist
- $self->_check_register( $register, $data->[0] )
- unless ( keys %$register );
+ # store just the index so we can check the array positions from the row
+ # without having to contruct the full hash
- if ( my $found = $self->_check_register( $register, $new_data ) ) {
- $self->_merge_result( $found, $new_data, $register );
- }
- else {
- push( @$data, $new_data );
+ if (keys %collapse) {
+ my %pri = map { ($_ => 1) } $self->result_source->_pri_cols;
+ foreach my $i (0 .. $#construct_as) {
+ next if defined($construct_as[$i][0]); # only self table
+ if (delete $pri{$construct_as[$i][1]}) {
+ push(@pri_index, $i);
+ }
+ last unless keys %pri; # short circuit (Johnny Five Is Alive!)
}
}
- return 1;
-}
-
-=begin
-# two arguments: $as_proto is an arrayref of column names,
-# $row_ref is an arrayref of the data. If none of the row data
-# is defined we return undef (that's copied from the old
-# _collapse_result). Next we decide whether we need to collapse
-# the resultset (i.e. we prefetch something) or not. $collapse
-# indicates that. The do-while loop will run once if we do not need
-# to collapse the result and will run as long as _merge_result returns
-# a true value. It will return undef if the current added row does not
-# match the previous row. A bit of stashing and cursor magic is
-# required so that the cursor is not mixed up.
+ # no need to do an if, it'll be empty if @pri_index is empty anyway
-# "$rows" is a bit misleading. In the end, there should only be one
-# element in this arrayref.
+ my %pri_vals = map { ($_ => $copy[$_]) } @pri_index;
-sub _collapse_result {
- my ( $self, $as_proto, $row_ref ) = @_;
- my $has_def;
- for (@$row_ref) {
- if ( defined $_ ) {
- $has_def++;
- last;
- }
- }
- return undef unless $has_def;
-
- my $collapse = $self->_resolved_attrs->{collapse};
- my $rows = [];
- my @row = @$row_ref;
- do {
- my $i = 0;
- my $row = { map { $_ => $row[ $i++ ] } @$as_proto };
- $row = $self->result_source->_parse_row($row, $collapse);
- unless ( scalar @$rows ) {
- push( @$rows, $row );
- }
- $collapse = undef unless ( $self->_merge_result( $rows, $row ) );
- } while (
- $collapse
- && do { @row = $self->cursor->next; $self->{stashed_row} = \@row if @row; }
- );
+ my @const_rows;
- return $rows->[0];
+ do { # no need to check anything at the front, we always want the first row
-}
+ my %const;
-# _merge_result accepts an arrayref of rows objects (again, an arrayref of two elements)
-# and a row object which should be merged into the first object.
-# First we try to find out whether $row is already in $rows. If this is the case
-# we try to merge them by iteration through their relationship data. We call
-# _merge_result again on them, so they get merged.
-
-# If we don't find the $row in $rows, we append it to $rows and return undef.
-# _merge_result returns 1 otherwise (i.e. $row has been found in $rows).
-
-sub _merge_result {
- my ( $self, $rows, $row ) = @_;
- my ( $columns, $rels ) = @$row;
- my $found = undef;
- foreach my $seen (@$rows) {
- my $match = 1;
- foreach my $column ( keys %$columns ) {
- if ( defined $seen->[0]->{$column} ^ defined $columns->{$column}
- or defined $columns->{$column}
- && $seen->[0]->{$column} ne $columns->{$column} )
- {
-
- $match = 0;
- last;
- }
- }
- if ($match) {
- $found = $seen;
- last;
- }
+ foreach my $this_as (@construct_as) {
+ $const{$this_as->[0]||''}{$this_as->[1]} = shift(@copy);
}
- if ($found) {
- foreach my $rel ( keys %$rels ) {
- my $old_rows = $found->[1]->{$rel};
- $self->_merge_result(
- ref $found->[1]->{$rel}->[0] eq 'HASH' ? [ $found->[1]->{$rel} ]
- : $found->[1]->{$rel},
- ref $rels->{$rel}->[0] eq 'HASH' ? [ $rels->{$rel}->[0], $rels->{$rel}->[1] ]
- : $rels->{$rel}->[0]
- );
-
- my $attrs = $self->_resolved_attrs;
- my ($keep_collapsing, $set_ident) = @{$attrs}{qw/collapse _collapse_ident/};
-
- # FIXME this is temporary, need to calculate in _resolved_attrs
- $set_ident ||= { me => [ $self->result_source->_pri_cols ], pref => {} };
-
- my @cur_row = @$row_ref;
- my (@to_collapse, $last_ident);
-
- do {
- my $row_hr = { map { $as_proto->[$_] => $cur_row[$_] } (0 .. $#$as_proto) };
-
- # see if we are switching to another object
- # this can be turned off and things will still work
- # since _merge_prefetch knows about _collapse_ident
-# my $cur_ident = [ @{$row_hr}{@$set_ident} ];
- my $cur_ident = [];
- $last_ident ||= $cur_ident;
-
-# if ($keep_collapsing = Test::Deep::eq_deeply ($cur_ident, $last_ident)) {
-# push @to_collapse, $self->result_source->_parse_row (
-# $row_hr,
-# );
-# }
- } while (
- $keep_collapsing
- &&
- do { @cur_row = $self->cursor->next; $self->{stashed_row} = \@cur_row if @cur_row; }
- );
-
- die Dumper \@to_collapse;
+ push(@const_rows, \%const);
- # attempt collapse all rows with same collapse identity
- if (@to_collapse > 1) {
- my @collapsed;
- while (@to_collapse) {
- $self->_merge_result(\@collapsed, shift @to_collapse);
- }
- @to_collapse = @collapsed;
- }
-
- # still didn't fully collapse
- $self->throw_exception ('Resultset collapse failed (theoretically impossible). Maybe a wrong collapse_ident...?')
- if (@to_collapse > 1);
+ } until ( # no pri_index => no collapse => drop straight out
+ !@pri_index
+ or
+ do { # get another row, stash it, drop out if different PK
- return $to_collapse[0];
-}
+ @copy = $self->cursor->next;
+ $self->{stashed_row} = \@copy;
+ # last thing in do block, counts as true if anything doesn't match
-# two arguments: $as_proto is an arrayref of 'as' column names,
-# $row_ref is an arrayref of the data. The do-while loop will run
-# once if we do not need to collapse the result and will run as long as
-# _merge_result returns a true value. It will return undef if the
-# current added row does not match the previous row, which in turn
-# means we need to stash the row for the subsequent ->next call
-sub _collapse_result {
- my ( $self, $as_proto, $row_ref ) = @_;
+ # check xor defined first for NULL vs. NOT NULL then if one is
+ # defined the other must be so check string equality
- my $attrs = $self->_resolved_attrs;
- my ($keep_collapsing, $set_ident) = @{$attrs}{qw/collapse _collapse_ident/};
-
- die Dumper [$as_proto, $row_ref, $keep_collapsing, $set_ident ];
-
-
- my @cur_row = @$row_ref;
- my (@to_collapse, $last_ident);
-
- do {
- my $row_hr = { map { $as_proto->[$_] => $cur_row[$_] } (0 .. $#$as_proto) };
+ grep {
+ (defined $pri_vals{$_} ^ defined $copy[$_])
+ || (defined $pri_vals{$_} && ($pri_vals{$_} ne $copy[$_]))
+ } @pri_index;
+ }
+ );
- # see if we are switching to another object
- # this can be turned off and things will still work
- # since _merge_prefetch knows about _collapse_ident
-# my $cur_ident = [ @{$row_hr}{@$set_ident} ];
- my $cur_ident = [];
- $last_ident ||= $cur_ident;
+ my $alias = $self->{attrs}{alias};
+ my $info = [];
-# if ($keep_collapsing = eq_deeply ($cur_ident, $last_ident)) {
-# push @to_collapse, $self->result_source->_parse_row (
-# $row_hr,
-# );
-# }
- } while (
- $keep_collapsing
- &&
- do { @cur_row = $self->cursor->next; $self->{stashed_row} = \@cur_row if @cur_row; }
- );
+ my %collapse_pos;
- # attempt collapse all rows with same collapse identity
-}
-=cut
+ my @const_keys;
-# Takes an arrayref of me/pref pairs and a new me/pref pair that should
-# be merged on a preexisting matching me (or should be pushed into $merged
-# as a new me/pref pair for further invocations). It should be possible to
-# use this function to collapse complete ->all results, provided _collapse_result() is adjusted
-# to provide everything to this sub not to barf when $merged contains more than one
-# arrayref)
-sub _merge_prefetch {
- my ($self, $merged, $next_row) = @_;
-
- unless (@$merged) {
- push @$merged, $next_row;
- return;
+ foreach my $const (@const_rows) {
+ scalar @const_keys or do {
+ @const_keys = sort { length($a) <=> length($b) } keys %$const;
+ };
+ foreach my $key (@const_keys) {
+ if (length $key) {
+ my $target = $info;
+ my @parts = split(/\./, $key);
+ my $cur = '';
+ my $data = $const->{$key};
+ foreach my $p (@parts) {
+ $target = $target->[1]->{$p} ||= [];
+ $cur .= ".${p}";
+ if ($cur eq ".${key}" && (my @ckey = @{$collapse{$cur}||[]})) {
+ # collapsing at this point and on final part
+ my $pos = $collapse_pos{$cur};
+ CK: foreach my $ck (@ckey) {
+ if (!defined $pos->{$ck} || $pos->{$ck} ne $data->{$ck}) {
+ $collapse_pos{$cur} = $data;
+ delete @collapse_pos{ # clear all positioning for sub-entries
+ grep { m/^\Q${cur}.\E/ } keys %collapse_pos
+ };
+ push(@$target, []);
+ last CK;
+ }
+ }
+ }
+ if (exists $collapse{$cur}) {
+ $target = $target->[-1];
+ }
+ }
+ $target->[0] = $data;
+ } else {
+ $info->[0] = $const->{$key};
+ }
+ }
}
+ return $info;
}
=head2 result_source
# if we multi-prefetch we group_by something unique, as this is what we would
# get out of the rs via ->next/->all. We *DO WANT* to clobber old group_by regardless
- if ( $attrs->{collapse} ) {
+ if ( keys %{$attrs->{collapse}} ) {
$sub_attrs->{group_by} = [ map { "$attrs->{alias}.$_" } @{
$rsrc->_identifying_column_set || $self->throw_exception(
'Unable to construct a unique group_by criteria properly collapsing the '
=head2 count_literal
+B<CAVEAT>: C<count_literal> is provided for Class::DBI compatibility and
+should only be used in that context. See L</search_literal> for further info.
+
=over 4
-=item Arguments: $sql_fragment, @bind_values
+=item Arguments: $sql_fragment, @standalone_bind_values
=item Return Value: $count
$self->throw_exception("all() doesn't take any arguments, you probably wanted ->search(...)->all()");
}
- if (my $c = $self->get_cache) {
- return @$c;
- }
+ return @{ $self->get_cache } if $self->get_cache;
- my @objects;
+ my @obj;
- if ($self->_resolved_attrs->{collapse}) {
+ if (keys %{$self->_resolved_attrs->{collapse}}) {
# Using $self->cursor->all is really just an optimisation.
# If we're collapsing has_many prefetches it probably makes
# very little difference, and this is cleaner than hacking
- # _construct_objects to survive the approach
+ # _construct_object to survive the approach
$self->cursor->reset;
my @row = $self->cursor->next;
while (@row) {
- push(@objects, $self->_construct_objects(@row));
+ push(@obj, $self->_construct_object(@row));
@row = (exists $self->{stashed_row}
? @{delete $self->{stashed_row}}
: $self->cursor->next);
}
} else {
- @objects = map { $self->_construct_objects(@$_) } $self->cursor->all;
+ @obj = map { $self->_construct_object(@$_) } $self->cursor->all;
}
- $self->set_cache(\@objects) if $self->{attrs}{cache};
+ $self->set_cache(\@obj) if $self->{attrs}{cache};
- return @objects;
+ return @obj;
}
=head2 reset
my $attrs = { %{$self->_resolved_attrs} };
- # "needs" is a strong word here - if the subquery is part of an IN clause - no point of
- # even adding the group_by. It will really be used only when composing a poor-man's
- # multicolumn-IN equivalent OR set
- my $needs_group_by_subq = defined $attrs->{group_by};
+ my $existing_group_by = delete $attrs->{group_by};
+ my $needs_subq = defined $existing_group_by;
+
+ # simplify the joinmap and maybe decide if a subquery is necessary
+ my $relation_classifications = {};
- # simplify the joinmap and maybe decide if a grouping (and thus subquery) is necessary
- my $relation_classifications;
if (ref($attrs->{from}) eq 'ARRAY') {
- $attrs->{from} = $storage->_prune_unused_joins ($attrs->{from}, $attrs->{select}, $cond, $attrs);
+ # if we already know we need a subq, no point of classifying relations
+ if (!$needs_subq and @{$attrs->{from}} > 1) {
+ $attrs->{from} = $storage->_prune_unused_joins ($attrs->{from}, $attrs->{select}, $cond, $attrs);
- $relation_classifications = $storage->_resolve_aliastypes_from_select_args (
- [ @{$attrs->{from}}[1 .. $#{$attrs->{from}}] ],
- $attrs->{select},
- $cond,
- $attrs
- ) unless $needs_group_by_subq; # we already know we need a group, no point of resolving them
+ $relation_classifications = $storage->_resolve_aliastypes_from_select_args (
+ [ @{$attrs->{from}}[1 .. $#{$attrs->{from}}] ],
+ $attrs->{select},
+ $cond,
+ $attrs
+ );
+ }
}
else {
- $needs_group_by_subq ||= 1; # if {from} is unparseable assume the worst
+ $needs_subq ||= 1; # if {from} is unparseable assume the worst
}
- $needs_group_by_subq ||= exists $relation_classifications->{multiplying};
-
- # if no subquery - life is easy-ish
- unless (
- $needs_group_by_subq
- or
- keys %$relation_classifications # if any joins at all - need to wrap a subq
- or
- $self->_has_resolved_attr(qw/rows offset/) # limits call for a subq
+ # do we need anything like a subquery?
+ if (
+ ! $needs_subq
+ and
+ ! keys %{ $relation_classifications->{restricting} || {} }
+ and
+ ! $self->_has_resolved_attr(qw/rows offset/) # limits call for a subq
) {
# Most databases do not allow aliasing of tables in UPDATE/DELETE. Thus
# a condition containing 'me' or other table prefixes will not work
- # at all. What this code tries to do (badly) is to generate a condition
- # with the qualifiers removed, by exploiting the quote mechanism of sqla
- #
- # this is atrocious and should be replaced by normal sqla introspection
- # one sunny day
- my ($sql, @bind) = do {
+ # at all. Tell SQLMaker to dequalify idents via a gross hack.
+ my $cond = do {
my $sqla = $rsrc->storage->sql_maker;
local $sqla->{_dequalify_idents} = 1;
- $sqla->_recurse_where($self->{cond});
- } if $self->{cond};
-
+ \[ $sqla->_recurse_where($self->{cond}) ];
+ };
return $rsrc->storage->$op(
$rsrc,
$op eq 'update' ? $values : (),
- $self->{cond} ? \[$sql, @bind] : (),
+ $cond,
);
}
$rsrc->source_name,
)
);
- my $existing_group_by = delete $attrs->{group_by};
# make a new $rs selecting only the PKs (that's all we really need for the subq)
delete $attrs->{$_} for qw/collapse _collapse_order_by select _prefetch_selector_range as/;
);
}
else {
+
# if all else fails - get all primary keys and operate over a ORed set
# wrap in a transaction for consistency
# this is where the group_by starts to matter
- my $subq_group_by;
- if ($needs_group_by_subq) {
- $subq_group_by = $attrs->{columns};
-
+ if (
+ $existing_group_by
+ or
+ keys %{ $relation_classifications->{multiplying} || {} }
+ ) {
# make sure if there is a supplied group_by it matches the columns compiled above
# perfectly. Anything else can not be sanely executed on most databases so croak
# right then and there
if (
join ("\x00", sort @current_group_by)
ne
- join ("\x00", sort @$subq_group_by )
+ join ("\x00", sort @{$attrs->{columns}} )
) {
$self->throw_exception (
"You have just attempted a $op operation on a resultset which does group_by"
);
}
}
+
+ $subrs = $subrs->search({}, { group_by => $attrs->{columns} });
}
my $guard = $storage->txn_scope_guard;
my @op_condition;
- for my $row ($subrs->search({}, { group_by => $subq_group_by })->cursor->all) {
+ for my $row ($subrs->cursor->all) {
push @op_condition, { map
{ $idcols->[$_] => $row->[$_] }
(0 .. $#$idcols)
sub new_result {
my ($self, $values) = @_;
- $self->throw_exception( "new_result needs a hash" )
+
+ $self->throw_exception( "new_result takes only one argument - a hashref of values" )
+ if @_ > 2;
+
+ $self->throw_exception( "new_result expects a hashref" )
unless (ref $values eq 'HASH');
my ($merged_cond, $cols_from_relations) = $self->_merge_with_rscond($values);
=item Arguments: none
-=item Return Value: \[ $sql, @bind ]
+=item Return Value: \[ $sql, L<@bind_values|/DBIC BIND VALUES> ]
=back
with an arbitrary depth and width, as long as the relationships actually
exists and the correct column data has been supplied.
-
Instead of hashrefs of plain related data (key/value pairs), you may
also pass new or inserted objects. New objects (not inserted yet, see
L</new>), will be inserted into their appropriate tables.
lot of the internals simply never call it, so your override will be
bypassed more often than not. Override either L<new|DBIx::Class::Row/new>
or L<insert|DBIx::Class::Row/insert> depending on how early in the
-L</create> process you need to intervene.
+L</create> process you need to intervene. See also warning pertaining to
+L</new>.
=back
year => 2005,
});
- if( $cd->in_storage ) {
+ if( !$cd->in_storage ) {
# do some stuff
$cd->insert;
}
to call L<DBIx::Class::Row/insert> to save the newly created row to the
database!
- my $cd = $schema->resultset('CD')->update_or_new(
- {
- artist => 'Massive Attack',
- title => 'Mezzanine',
- year => 1998,
- },
- { key => 'cd_artist_title' }
- );
-
- if( $cd->in_storage ) {
- # do some stuff
- $cd->insert;
- }
-
=cut
sub update_or_create {
if (my $cols = delete $attrs->{columns}) {
for my $c (ref $cols eq 'ARRAY' ? @$cols : $cols) {
if (ref $c eq 'HASH') {
- for my $as (keys %$c) {
+ for my $as (sort keys %$c) {
push @sel, $c->{$as};
push @as, $as;
}
}
}
- # generate selections based on the prefetch helper
- my $prefetch;
- $prefetch = $self->_merge_joinpref_attr( {}, delete $attrs->{prefetch} )
- if defined $attrs->{prefetch};
-
- if ($prefetch) {
+ $attrs->{collapse} ||= {};
+ if ($attrs->{prefetch}) {
$self->throw_exception("Unable to prefetch, resultset contains an unnamed selector $attrs->{_dark_selector}{string}")
if $attrs->{_dark_selector};
- $attrs->{collapse} = 1;
+ my $prefetch = $self->_merge_joinpref_attr( {}, delete $attrs->{prefetch} );
+
+ my $prefetch_ordering = [];
# this is a separate structure (we don't look in {from} directly)
# as the resolver needs to shift things off the lists to work
}
}
- my @prefetch = $source->_resolve_prefetch( $prefetch, $alias, $join_map );
+ my @prefetch =
+ $source->_resolve_prefetch( $prefetch, $alias, $join_map, $prefetch_ordering, $attrs->{collapse} );
# we need to somehow mark which columns came from prefetch
if (@prefetch) {
push @{ $attrs->{select} }, (map { $_->[0] } @prefetch);
push @{ $attrs->{as} }, (map { $_->[1] } @prefetch);
- }
-
- # run through the resulting joinstructure (starting from our current slot)
- # and unset collapse if proven unnesessary
- if ($attrs->{collapse} && ref $attrs->{from} eq 'ARRAY') {
-
- if (@{$attrs->{from}} > 1) {
-
- # find where our table-spec starts and consider only things after us
- my @fromlist = @{$attrs->{from}};
- while (@fromlist) {
- my $t = shift @fromlist;
- $t = $t->[0] if ref $t eq 'ARRAY'; #me vs join from-spec mismatch
- last if ($t->{-alias} && $t->{-alias} eq $alias);
- }
- for (@fromlist) {
- $attrs->{collapse} = ! $_->[0]{-is_single}
- and last;
- }
- }
- else {
- # no joins - no collapse
- $attrs->{collapse} = 0;
- }
+ push( @{$attrs->{order_by}}, @$prefetch_ordering );
+ $attrs->{_collapse_order_by} = \@$prefetch_ordering;
}
-
# if both page and offset are specified, produce a combined offset
# even though it doesn't make much sense, this is what pre 081xx has
# been doing
C<\%attrs> argument. See L</search>, L</search_rs>, L</find>,
L</count>.
+Default attributes can be set on the result class using
+L<DBIx::Class::ResultSource/resultset_attributes>. (Please read
+the CAVEATS on that feature before using it!)
+
These are in no particular order:
=head2 order_by
If you want to fetch related objects from other tables as well, see C<prefetch>
below.
+ NOTE: An internal join-chain pruner will discard certain joins while
+ constructing the actual SQL query, as long as the joins in question do not
+ affect the retrieved result. This for example includes 1:1 left joins
+ that are not part of the restriction specification (WHERE/HAVING) nor are
+ a part of the query selection.
+
For more help on using joins with search, see L<DBIx::Class::Manual::Joining>.
=head2 prefetch
=back
+=head2 alias
+
+=over 4
+
+=item Value: $source_alias
+
+=back
+
+Sets the source alias for the query. Normally, this defaults to C<me>, but
+nested search queries (sub-SELECTs) might need specific aliases set to
+reference inner queries. For example:
+
+ my $q = $rs
+ ->related_resultset('CDs')
+ ->related_resultset('Tracks')
+ ->search({
+ 'track.id' => { -ident => 'none_search.id' },
+ })
+ ->as_query;
+
+ my $ids = $self->search({
+ -not_exists => $q,
+ }, {
+ alias => 'none_search',
+ group_by => 'none_search.id',
+ })->get_column('id')->as_query;
+
+ $self->search({ id => { -in => $ids } })
+
+This attribute is directly tied to L</current_source_alias>.
+
=head2 page
=over 4
Adds to the WHERE clause.
# only return rows WHERE deleted IS NULL for all searches
- __PACKAGE__->resultset_attributes({ where => { deleted => undef } }); )
+ __PACKAGE__->resultset_attributes({ where => { deleted => undef } });
Can be overridden by passing C<< { where => undef } >> as an attribute
to a resultset.
=over 4
-=item Value: ( 'update' | 'shared' )
+=item Value: ( 'update' | 'shared' | \$scalar )
=back
Set to 'update' for a SELECT ... FOR UPDATE or 'shared' for a SELECT
-... FOR SHARED.
+... FOR SHARED. If \$scalar is passed, this is taken directly and embedded in the
+query.
+
+=head1 DBIC BIND VALUES
+
+Because DBIC may need more information to bind values than just the column name
+and value itself, it uses a special format for both passing and receiving bind
+values. Each bind value should be composed of an arrayref of
+C<< [ \%args => $val ] >>. The format of C<< \%args >> is currently:
+
+=over 4
+
+=item dbd_attrs
+
+If present (in any form), this is what is being passed directly to bind_param.
+Note that different DBD's expect different bind args. (e.g. DBD::SQLite takes
+a single numerical type, while DBD::Pg takes a hashref if bind options.)
+
+If this is specified, all other bind options described below are ignored.
+
+=item sqlt_datatype
+
+If present, this is used to infer the actual bind attribute by passing to
+C<< $resolved_storage->bind_attribute_by_data_type() >>. Defaults to the
+"data_type" from the L<add_columns column info|DBIx::Class::ResultSource/add_columns>.
+
+Note that the data type is somewhat freeform (hence the sqlt_ prefix);
+currently drivers are expected to "Do the Right Thing" when given a common
+datatype name. (Not ideal, but that's what we got at this point.)
+
+=item sqlt_size
+
+Currently used to correctly allocate buffers for bind_param_inout().
+Defaults to "size" from the L<add_columns column info|DBIx::Class::ResultSource/add_columns>,
+or to a sensible value based on the "data_type".
+
+=item dbic_colname
+
+Used to fill in missing sqlt_datatype and sqlt_size attributes (if they are
+explicitly specified they are never overriden). Also used by some weird DBDs,
+where the column name should be available at bind_param time (e.g. Oracle).
+
+=back
+
+For backwards compatibility and convenience, the following shortcuts are
+supported:
+
+ [ $name => $val ] === [ { dbic_colname => $name }, $val ]
+ [ \$dt => $val ] === [ { sqlt_datatype => $dt }, $val ]
+ [ undef, $val ] === [ {}, $val ]
+
+=head1 AUTHOR AND CONTRIBUTORS
+
+See L<AUTHOR|DBIx::Class/AUTHOR> and L<CONTRIBUTORS|DBIx::Class/CONTRIBUTORS> in DBIx::Class
+
+=head1 LICENSE
+
+You may distribute this code under the same terms as Perl itself.
=cut