use strict;
use warnings;
+use base qw/DBIx::Class/;
+use DBIx::Class::Carp;
+use DBIx::Class::Exception;
+use DBIx::Class::ResultSetColumn;
+use Scalar::Util qw/blessed weaken/;
+use Try::Tiny;
+use Data::Compare (); # no imports!!! guard against insane architecture
+
+# not importing first() as it will clash with our own method
+use List::Util ();
+
+BEGIN {
+ # De-duplication in _merge_attr() is disabled, but left in for reference
+ # (the merger is used for other things that ought not to be de-duped)
+ *__HM_DEDUP = sub () { 0 };
+}
+
+use namespace::clean;
+
use overload
'0+' => "count",
'bool' => "_bool",
fallback => 1;
-use Carp::Clan qw/^DBIx::Class/;
-use DBIx::Class::Exception;
-use Data::Page;
-use Storable;
-use DBIx::Class::ResultSetColumn;
-use DBIx::Class::ResultSourceHandle;
-use List::Util ();
-use Scalar::Util ();
-use base qw/DBIx::Class/;
-__PACKAGE__->mk_group_accessors('simple' => qw/_result_class _source_handle/);
+__PACKAGE__->mk_group_accessors('simple' => qw/_result_class result_source/);
=head1 NAME
=head1 SYNOPSIS
my $users_rs = $schema->resultset('User');
+ while( $user = $users_rs->next) {
+ print $user->username;
+ }
+
my $registered_users_rs = $schema->resultset('User')->search({ registered => 1 });
my @cds_in_2005 = $schema->resultset('CD')->search({ year => 2005 })->all();
The query that the ResultSet represents is B<only> executed against
the database when these methods are called:
-L</find> L</next> L</all> L</first> L</single> L</count>
+L</find>, L</next>, L</all>, L</first>, L</single>, L</count>.
+
+If a resultset is used in a numeric context it returns the L</count>.
+However, if it is used in a boolean context it is B<always> true. So if
+you want to check if a resultset has any results, you must use C<if $rs
+!= 0>.
+
+=head1 CUSTOM ResultSet CLASSES THAT USE Moose
+
+If you want to make your custom ResultSet classes with L<Moose>, use a template
+similar to:
+
+ package MyApp::Schema::ResultSet::User;
+
+ use Moose;
+ use namespace::autoclean;
+ use MooseX::NonMoose;
+ extends 'DBIx::Class::ResultSet';
+
+ sub BUILDARGS { $_[2] }
+
+ ...your code...
+
+ __PACKAGE__->meta->make_immutable;
+
+ 1;
+
+The L<MooseX::NonMoose> is necessary so that the L<Moose> constructor does not
+clash with the regular ResultSet constructor. Alternatively, you can use:
+
+ __PACKAGE__->meta->make_immutable(inline_constructor => 0);
+
+The L<BUILDARGS|Moose::Manual::Construction/BUILDARGS> is necessary because the
+signature of the ResultSet C<new> is C<< ->new($source, \%args) >>.
=head1 EXAMPLES
sub get_data {
my $self = shift;
my $request = $self->get_request; # Get a request object somehow.
- my $schema = $self->get_schema; # Get the DBIC schema object somehow.
+ my $schema = $self->result_source->schema;
my $cd_rs = $schema->resultset('CD')->search({
title => $request->param('title'),
year => $request->param('year'),
});
- $self->apply_security_policy( $cd_rs );
+ $cd_rs = $self->apply_security_policy( $cd_rs );
return $cd_rs->all();
}
L</join>, L</prefetch>, L</+select>, L</+as> attributes are merged
into the existing ones from the original resultset.
-The L</where>, L</having> attribute, and any search conditions are
+The L</where> and L</having> attributes, and any search conditions, are
merged with an SQL C<AND> to the existing condition from the original
resultset.
See: L</search>, L</count>, L</get_column>, L</all>, L</create>.
-=head1 OVERLOADING
-
-If a resultset is used in a numeric context it returns the L</count>.
-However, if it is used in a booleand context it is always true. So if
-you want to check if a resultset has any results use C<if $rs != 0>.
-C<if $rs> will always be true.
-
=head1 METHODS
=head2 new
return $class->new_result(@_) if ref $class;
my ($source, $attrs) = @_;
- $source = $source->handle
- unless $source->isa('DBIx::Class::ResultSourceHandle');
+ $source = $source->resolve
+ if $source->isa('DBIx::Class::ResultSourceHandle');
$attrs = { %{$attrs||{}} };
if ($attrs->{page}) {
$attrs->{alias} ||= 'me';
- # Creation of {} and bless separated to mitigate RH perl bug
- # see https://bugzilla.redhat.com/show_bug.cgi?id=196836
- my $self = {
- _source_handle => $source,
+ my $self = bless {
+ result_source => $source,
cond => $attrs->{where},
- count => undef,
pager => undef,
- attrs => $attrs
- };
+ attrs => $attrs,
+ }, $class;
- bless $self, $class;
+ # if there is a dark selector, this means we are already in a
+ # chain and the cleanup/sanification was taken care of by
+ # _search_rs already
+ $self->_normalize_selection($attrs)
+ unless $attrs->{_dark_selector};
$self->result_class(
- $attrs->{result_class} || $source->resolve->result_class
+ $attrs->{result_class} || $source->result_class
);
- return $self;
+ $self;
}
=head2 search
=item Arguments: $cond, \%attrs?
-=item Return Value: $resultset (scalar context), @row_objs (list context)
+=item Return Value: $resultset (scalar context) || @row_objs (list context)
=back
my $new_rs = $cd_rs->search([ { year => 2005 }, { year => 2004 } ]);
# year = 2005 OR year = 2004
+In list context, C<< ->all() >> is called implicitly on the resultset, thus
+returning a list of row objects instead. To avoid that, use L</search_rs>.
+
If you need to pass in additional attributes but no additional condition,
call it as C<search(undef, \%attrs)>.
For a list of attributes that can be passed to C<search>, see
L</ATTRIBUTES>. For more examples of using this function, see
L<Searching|DBIx::Class::Manual::Cookbook/Searching>. For a complete
-documentation for the first argument, see L<SQL::Abstract>.
+documentation for the first argument, see L<SQL::Abstract>
+and its extension L<DBIx::Class::SQLMaker>.
For more help on using joins with search, see L<DBIx::Class::Manual::Joining>.
+=head3 CAVEAT
+
+Note that L</search> does not process/deflate any of the values passed in the
+L<SQL::Abstract>-compatible search condition structure. This is unlike other
+condition-bound methods L</new>, L</create> and L</find>. The user must ensure
+manually that any value passed to this method will stringify to something the
+RDBMS knows how to deal with. A notable example is the handling of L<DateTime>
+objects, for more info see:
+L<DBIx::Class::Manual::Cookbook/Formatting DateTime objects in queries>.
+
=cut
sub search {
my $self = shift;
my $rs = $self->search_rs( @_ );
- return (wantarray ? $rs->all : $rs);
+
+ if (wantarray) {
+ return $rs->all;
+ }
+ elsif (defined wantarray) {
+ return $rs;
+ }
+ else {
+ # we can be called by a relationship helper, which in
+ # turn may be called in void context due to some braindead
+ # overload or whatever else the user decided to be clever
+ # at this particular day. Thus limit the exception to
+ # external code calls only
+ $self->throw_exception ('->search is *not* a mutator, calling it in void context makes no sense')
+ if (caller)[0] !~ /^\QDBIx::Class::/;
+
+ return ();
+ }
}
=head2 search_rs
# Special-case handling for (undef, undef).
if ( @_ == 2 && !defined $_[1] && !defined $_[0] ) {
- pop(@_); pop(@_);
+ @_ = ();
}
- my $attrs = {};
- $attrs = pop(@_) if @_ > 1 and ref $_[$#_] eq 'HASH';
- my $our_attrs = { %{$self->{attrs}} };
- my $having = delete $our_attrs->{having};
- my $where = delete $our_attrs->{where};
-
- my $rows;
+ my $call_attrs = {};
+ if (@_ > 1) {
+ if (ref $_[-1] eq 'HASH') {
+ # copy for _normalize_selection
+ $call_attrs = { %{ pop @_ } };
+ }
+ elsif (! defined $_[-1] ) {
+ pop @_; # search({}, undef)
+ }
+ }
+ # see if we can keep the cache (no $rs changes)
+ my $cache;
my %safe = (alias => 1, cache => 1);
+ if ( ! List::Util::first { !$safe{$_} } keys %$call_attrs and (
+ ! defined $_[0]
+ or
+ ref $_[0] eq 'HASH' && ! keys %{$_[0]}
+ or
+ ref $_[0] eq 'ARRAY' && ! @{$_[0]}
+ )) {
+ $cache = $self->get_cache;
+ }
- unless (
- (@_ && defined($_[0])) # @_ == () or (undef)
- ||
- (keys %$attrs # empty attrs or only 'safe' attrs
- && List::Util::first { !$safe{$_} } keys %$attrs)
- ) {
- # no search, effectively just a clone
- $rows = $self->get_cache;
- }
-
- my $new_attrs = { %{$our_attrs}, %{$attrs} };
-
- # merge new attrs into inherited
- foreach my $key (qw/join prefetch +select +as bind/) {
- next unless exists $attrs->{$key};
- $new_attrs->{$key} = $self->_merge_attr($our_attrs->{$key}, $attrs->{$key});
- }
-
- my $cond = (@_
- ? (
- (@_ == 1 || ref $_[0] eq "HASH")
- ? (
- (ref $_[0] eq 'HASH')
- ? (
- (keys %{ $_[0] } > 0)
- ? shift
- : undef
- )
- : shift
- )
- : (
- (@_ % 2)
- ? $self->throw_exception("Odd number of arguments to search")
- : {@_}
- )
- )
- : undef
- );
+ my $rsrc = $self->result_source;
- if (defined $where) {
- $new_attrs->{where} = (
- defined $new_attrs->{where}
- ? { '-and' => [
- map {
- ref $_ eq 'ARRAY' ? [ -or => $_ ] : $_
- } $where, $new_attrs->{where}
- ]
- }
- : $where);
+ my $old_attrs = { %{$self->{attrs}} };
+ my $old_having = delete $old_attrs->{having};
+ my $old_where = delete $old_attrs->{where};
+
+ my $new_attrs = { %$old_attrs };
+
+ # take care of call attrs (only if anything is changing)
+ if (keys %$call_attrs) {
+
+ my @selector_attrs = qw/select as columns cols +select +as +columns include_columns/;
+
+ # reset the current selector list if new selectors are supplied
+ if (List::Util::first { exists $call_attrs->{$_} } qw/columns cols select as/) {
+ delete @{$old_attrs}{(@selector_attrs, '_dark_selector')};
+ }
+
+ # Normalize the new selector list (operates on the passed-in attr structure)
+ # Need to do it on every chain instead of only once on _resolved_attrs, in
+ # order to allow detection of empty vs partial 'as'
+ $call_attrs->{_dark_selector} = $old_attrs->{_dark_selector}
+ if $old_attrs->{_dark_selector};
+ $self->_normalize_selection ($call_attrs);
+
+ # start with blind overwriting merge, exclude selector attrs
+ $new_attrs = { %{$old_attrs}, %{$call_attrs} };
+ delete @{$new_attrs}{@selector_attrs};
+
+ for (@selector_attrs) {
+ $new_attrs->{$_} = $self->_merge_attr($old_attrs->{$_}, $call_attrs->{$_})
+ if ( exists $old_attrs->{$_} or exists $call_attrs->{$_} );
+ }
+
+ # older deprecated name, use only if {columns} is not there
+ if (my $c = delete $new_attrs->{cols}) {
+ if ($new_attrs->{columns}) {
+ carp "Resultset specifies both the 'columns' and the legacy 'cols' attributes - ignoring 'cols'";
+ }
+ else {
+ $new_attrs->{columns} = $c;
+ }
+ }
+
+
+ # join/prefetch use their own crazy merging heuristics
+ foreach my $key (qw/join prefetch/) {
+ $new_attrs->{$key} = $self->_merge_joinpref_attr($old_attrs->{$key}, $call_attrs->{$key})
+ if exists $call_attrs->{$key};
+ }
+
+ # stack binds together
+ $new_attrs->{bind} = [ @{ $old_attrs->{bind} || [] }, @{ $call_attrs->{bind} || [] } ];
}
- if (defined $cond) {
- $new_attrs->{where} = (
- defined $new_attrs->{where}
- ? { '-and' => [
- map {
- ref $_ eq 'ARRAY' ? [ -or => $_ ] : $_
- } $cond, $new_attrs->{where}
- ]
- }
- : $cond);
+
+ # rip apart the rest of @_, parse a condition
+ my $call_cond = do {
+
+ if (ref $_[0] eq 'HASH') {
+ (keys %{$_[0]}) ? $_[0] : undef
+ }
+ elsif (@_ == 1) {
+ $_[0]
+ }
+ elsif (@_ % 2) {
+ $self->throw_exception('Odd number of arguments to search')
+ }
+ else {
+ +{ @_ }
+ }
+
+ } if @_;
+
+ if( @_ > 1 and ! $rsrc->result_class->isa('DBIx::Class::CDBICompat') ) {
+ carp_unique 'search( %condition ) is deprecated, use search( \%condition ) instead';
}
- if (defined $having) {
- $new_attrs->{having} = (
- defined $new_attrs->{having}
- ? { '-and' => [
- map {
- ref $_ eq 'ARRAY' ? [ -or => $_ ] : $_
- } $having, $new_attrs->{having}
- ]
- }
- : $having);
+ for ($old_where, $call_cond) {
+ if (defined $_) {
+ $new_attrs->{where} = $self->_stack_cond (
+ $_, $new_attrs->{where}
+ );
+ }
}
- my $rs = (ref $self)->new($self->result_source, $new_attrs);
- if ($rows) {
- $rs->set_cache($rows);
+ if (defined $old_having) {
+ $new_attrs->{having} = $self->_stack_cond (
+ $old_having, $new_attrs->{having}
+ )
}
+
+ my $rs = (ref $self)->new($rsrc, $new_attrs);
+
+ $rs->set_cache($cache) if ($cache);
+
return $rs;
}
+my $dark_sel_dumper;
+sub _normalize_selection {
+ my ($self, $attrs) = @_;
+
+ # legacy syntax
+ $attrs->{'+columns'} = $self->_merge_attr($attrs->{'+columns'}, delete $attrs->{include_columns})
+ if exists $attrs->{include_columns};
+
+ # columns are always placed first, however
+
+ # Keep the X vs +X separation until _resolved_attrs time - this allows to
+ # delay the decision on whether to use a default select list ($rsrc->columns)
+ # allowing stuff like the remove_columns helper to work
+ #
+ # select/as +select/+as pairs need special handling - the amount of select/as
+ # elements in each pair does *not* have to be equal (think multicolumn
+ # selectors like distinct(foo, bar) ). If the selector is bare (no 'as'
+ # supplied at all) - try to infer the alias, either from the -as parameter
+ # of the selector spec, or use the parameter whole if it looks like a column
+ # name (ugly legacy heuristic). If all fails - leave the selector bare (which
+ # is ok as well), but make sure no more additions to the 'as' chain take place
+ for my $pref ('', '+') {
+
+ my ($sel, $as) = map {
+ my $key = "${pref}${_}";
+
+ my $val = [ ref $attrs->{$key} eq 'ARRAY'
+ ? @{$attrs->{$key}}
+ : $attrs->{$key} || ()
+ ];
+ delete $attrs->{$key};
+ $val;
+ } qw/select as/;
+
+ if (! @$as and ! @$sel ) {
+ next;
+ }
+ elsif (@$as and ! @$sel) {
+ $self->throw_exception(
+ "Unable to handle ${pref}as specification (@$as) without a corresponding ${pref}select"
+ );
+ }
+ elsif( ! @$as ) {
+ # no as part supplied at all - try to deduce (unless explicit end of named selection is declared)
+ # if any @$as has been supplied we assume the user knows what (s)he is doing
+ # and blindly keep stacking up pieces
+ unless ($attrs->{_dark_selector}) {
+ SELECTOR:
+ for (@$sel) {
+ if ( ref $_ eq 'HASH' and exists $_->{-as} ) {
+ push @$as, $_->{-as};
+ }
+ # assume any plain no-space, no-parenthesis string to be a column spec
+ # FIXME - this is retarded but is necessary to support shit like 'count(foo)'
+ elsif ( ! ref $_ and $_ =~ /^ [^\s\(\)]+ $/x) {
+ push @$as, $_;
+ }
+ # if all else fails - raise a flag that no more aliasing will be allowed
+ else {
+ $attrs->{_dark_selector} = {
+ plus_stage => $pref,
+ string => ($dark_sel_dumper ||= do {
+ require Data::Dumper::Concise;
+ Data::Dumper::Concise::DumperObject()->Indent(0);
+ })->Values([$_])->Dump
+ ,
+ };
+ last SELECTOR;
+ }
+ }
+ }
+ }
+ elsif (@$as < @$sel) {
+ $self->throw_exception(
+ "Unable to handle an ${pref}as specification (@$as) with less elements than the corresponding ${pref}select"
+ );
+ }
+ elsif ($pref and $attrs->{_dark_selector}) {
+ $self->throw_exception(
+ "Unable to process named '+select', resultset contains an unnamed selector $attrs->{_dark_selector}{string}"
+ );
+ }
+
+
+ # merge result
+ $attrs->{"${pref}select"} = $self->_merge_attr($attrs->{"${pref}select"}, $sel);
+ $attrs->{"${pref}as"} = $self->_merge_attr($attrs->{"${pref}as"}, $as);
+ }
+}
+
+sub _stack_cond {
+ my ($self, $left, $right) = @_;
+
+ # collapse single element top-level conditions
+ # (single pass only, unlikely to need recursion)
+ for ($left, $right) {
+ if (ref $_ eq 'ARRAY') {
+ if (@$_ == 0) {
+ $_ = undef;
+ }
+ elsif (@$_ == 1) {
+ $_ = $_->[0];
+ }
+ }
+ elsif (ref $_ eq 'HASH') {
+ my ($first, $more) = keys %$_;
+
+ # empty hash
+ if (! defined $first) {
+ $_ = undef;
+ }
+ # one element hash
+ elsif (! defined $more) {
+ if ($first eq '-and' and ref $_->{'-and'} eq 'HASH') {
+ $_ = $_->{'-and'};
+ }
+ elsif ($first eq '-or' and ref $_->{'-or'} eq 'ARRAY') {
+ $_ = $_->{'-or'};
+ }
+ }
+ }
+ }
+
+ # merge hashes with weeding out of duplicates (simple cases only)
+ if (ref $left eq 'HASH' and ref $right eq 'HASH') {
+
+ # shallow copy to destroy
+ $right = { %$right };
+ for (grep { exists $right->{$_} } keys %$left) {
+ # the use of eq_deeply here is justified - the rhs of an
+ # expression can contain a lot of twisted weird stuff
+ delete $right->{$_} if Data::Compare::Compare( $left->{$_}, $right->{$_} );
+ }
+
+ $right = undef unless keys %$right;
+ }
+
+
+ if (defined $left xor defined $right) {
+ return defined $left ? $left : $right;
+ }
+ elsif (! defined $left) {
+ return undef;
+ }
+ else {
+ return { -and => [ $left, $right ] };
+ }
+}
+
=head2 search_literal
=over 4
=item Arguments: $sql_fragment, @bind_values
-=item Return Value: $resultset (scalar context), @row_objs (list context)
+=item Return Value: $resultset (scalar context) || @row_objs (list context)
=back
=over 4
-=item Arguments: @values | \%cols, \%attrs?
+=item Arguments: \%columns_values | @pk_values, \%attrs?
=item Return Value: $row_object | undef
=back
-Finds a row based on its primary key or unique constraint. For example, to find
-a row by its primary key:
+Finds and returns a single row based on supplied criteria. Takes either a
+hashref with the same format as L</create> (including inference of foreign
+keys from related objects), or a list of primary key values in the same
+order as the L<primary columns|DBIx::Class::ResultSource/primary_columns>
+declaration on the L</result_source>.
+
+In either case an attempt is made to combine conditions already existing on
+the resultset with the condition passed to this method.
+
+To aid with preparing the correct query for the storage you may supply the
+C<key> attribute, which is the name of a
+L<unique constraint|DBIx::Class::ResultSource/add_unique_constraint> (the
+unique constraint corresponding to the
+L<primary columns|DBIx::Class::ResultSource/primary_columns> is always named
+C<primary>). If the C<key> attribute has been supplied, and DBIC is unable
+to construct a query that satisfies the named unique constraint fully (
+non-NULL values for each column member of the constraint) an exception is
+thrown.
+
+If no C<key> is specified, the search is carried over all unique constraints
+which are fully defined by the available condition.
+
+If no such constraint is found, C<find> currently defaults to a simple
+C<< search->(\%column_values) >> which may or may not do what you expect.
+Note that this fallback behavior may be deprecated in further versions. If
+you need to search with arbitrary conditions - use L</search>. If the query
+resulting from this fallback produces more than one row, a warning to the
+effect is issued, though only the first row is constructed and returned as
+C<$row_object>.
- my $cd = $schema->resultset('CD')->find(5);
+In addition to C<key>, L</find> recognizes and applies standard
+L<resultset attributes|/ATTRIBUTES> in the same way as L</search> does.
-You can also find a row by a specific unique constraint using the C<key>
-attribute. For example:
+Note that if you have extra concerns about the correctness of the resulting
+query you need to specify the C<key> attribute and supply the entire condition
+as an argument to find (since it is not always possible to perform the
+combination of the resultset condition with the supplied one, especially if
+the resultset condition contains literal sql).
- my $cd = $schema->resultset('CD')->find('Massive Attack', 'Mezzanine', {
- key => 'cd_artist_title'
- });
+For example, to find a row by its primary key:
+
+ my $cd = $schema->resultset('CD')->find(5);
-Additionally, you can specify the columns explicitly by name:
+You can also find a row by a specific unique constraint:
my $cd = $schema->resultset('CD')->find(
{
{ key => 'cd_artist_title' }
);
-If the C<key> is specified as C<primary>, it searches only on the primary key.
-
-If no C<key> is specified, it searches on all unique constraints defined on the
-source for which column data is provided, including the primary key.
-
-If your table does not have a primary key, you B<must> provide a value for the
-C<key> attribute matching one of the unique constraints on the source.
-
-In addition to C<key>, L</find> recognizes and applies standard
-L<resultset attributes|/ATTRIBUTES> in the same way as L</search> does.
-
-Note: If your query does not return only one row, a warning is generated:
-
- Query returned more than one row
-
-See also L</find_or_create> and L</update_or_create>. For information on how to
-declare unique constraints, see
-L<DBIx::Class::ResultSource/add_unique_constraint>.
+See also L</find_or_create> and L</update_or_create>.
=cut
my $self = shift;
my $attrs = (@_ > 1 && ref $_[$#_] eq 'HASH' ? pop(@_) : {});
- # Default to the primary key, but allow a specific key
- my @cols = exists $attrs->{key}
- ? $self->result_source->unique_constraint_columns($attrs->{key})
- : $self->result_source->primary_columns;
- $self->throw_exception(
- "Can't find unless a primary key is defined or unique constraint is specified"
- ) unless @cols;
+ my $rsrc = $self->result_source;
- # Parse out a hashref from input
- my $input_query;
- if (ref $_[0] eq 'HASH') {
- $input_query = { %{$_[0]} };
+ my $constraint_name;
+ if (exists $attrs->{key}) {
+ $constraint_name = defined $attrs->{key}
+ ? $attrs->{key}
+ : $self->throw_exception("An undefined 'key' resultset attribute makes no sense")
+ ;
}
- elsif (@_ == @cols) {
- $input_query = {};
- @{$input_query}{@cols} = @_;
+
+ # Parse out the condition from input
+ my $call_cond;
+
+ if (ref $_[0] eq 'HASH') {
+ $call_cond = { %{$_[0]} };
}
else {
- # Compatibility: Allow e.g. find(id => $value)
- carp "Find by key => value deprecated; please use a hashref instead";
- $input_query = {@_};
- }
-
- my (%related, $info);
-
- KEY: foreach my $key (keys %$input_query) {
- if (ref($input_query->{$key})
- && ($info = $self->result_source->relationship_info($key))) {
- my $val = delete $input_query->{$key};
- next KEY if (ref($val) eq 'ARRAY'); # has_many for multi_create
- my $rel_q = $self->result_source->_resolve_condition(
- $info->{cond}, $val, $key
- );
- die "Can't handle OR join condition in find" if ref($rel_q) eq 'ARRAY';
+ # if only values are supplied we need to default to 'primary'
+ $constraint_name = 'primary' unless defined $constraint_name;
+
+ my @c_cols = $rsrc->unique_constraint_columns($constraint_name);
+
+ $self->throw_exception(
+ "No constraint columns, maybe a malformed '$constraint_name' constraint?"
+ ) unless @c_cols;
+
+ $self->throw_exception (
+ 'find() expects either a column/value hashref, or a list of values '
+ . "corresponding to the columns of the specified unique constraint '$constraint_name'"
+ ) unless @c_cols == @_;
+
+ $call_cond = {};
+ @{$call_cond}{@c_cols} = @_;
+ }
+
+ my %related;
+ for my $key (keys %$call_cond) {
+ if (
+ my $keyref = ref($call_cond->{$key})
+ and
+ my $relinfo = $rsrc->relationship_info($key)
+ ) {
+ my $val = delete $call_cond->{$key};
+
+ next if $keyref eq 'ARRAY'; # has_many for multi_create
+
+ my $rel_q = $rsrc->_resolve_condition(
+ $relinfo->{cond}, $val, $key, $key
+ );
+ die "Can't handle complex relationship conditions in find" if ref($rel_q) ne 'HASH';
@related{keys %$rel_q} = values %$rel_q;
}
}
- if (my @keys = keys %related) {
- @{$input_query}{@keys} = values %related;
- }
+ # relationship conditions take precedence (?)
+ @{$call_cond}{keys %related} = values %related;
- # Build the final query: Default to the disjunction of the unique queries,
- # but allow the input query in case the ResultSet defines the query or the
- # user is abusing find
my $alias = exists $attrs->{alias} ? $attrs->{alias} : $self->{attrs}{alias};
- my $query;
- if (exists $attrs->{key}) {
- my @unique_cols = $self->result_source->unique_constraint_columns($attrs->{key});
- my $unique_query = $self->_build_unique_query($input_query, \@unique_cols);
- $query = $self->_add_alias($unique_query, $alias);
+ my $final_cond;
+ if (defined $constraint_name) {
+ $final_cond = $self->_qualify_cond_columns (
+
+ $self->_build_unique_cond (
+ $constraint_name,
+ $call_cond,
+ ),
+
+ $alias,
+ );
}
elsif ($self->{attrs}{accessor} and $self->{attrs}{accessor} eq 'single') {
# This means that we got here after a merger of relationship conditions
# in ::Relationship::Base::search_related (the row method), and furthermore
# the relationship is of the 'single' type. This means that the condition
# provided by the relationship (already attached to $self) is sufficient,
- # as there can be only one row in the databse that would satisfy the
+ # as there can be only one row in the database that would satisfy the
# relationship
}
else {
- my @unique_queries = $self->_unique_queries($input_query, $attrs);
- $query = @unique_queries
- ? [ map { $self->_add_alias($_, $alias) } @unique_queries ]
- : $self->_add_alias($input_query, $alias);
+ # no key was specified - fall down to heuristics mode:
+ # run through all unique queries registered on the resultset, and
+ # 'OR' all qualifying queries together
+ my (@unique_queries, %seen_column_combinations);
+ for my $c_name ($rsrc->unique_constraint_names) {
+ next if $seen_column_combinations{
+ join "\x00", sort $rsrc->unique_constraint_columns($c_name)
+ }++;
+
+ push @unique_queries, try {
+ $self->_build_unique_cond ($c_name, $call_cond, 'croak_on_nulls')
+ } || ();
+ }
+
+ $final_cond = @unique_queries
+ ? [ map { $self->_qualify_cond_columns($_, $alias) } @unique_queries ]
+ : $self->_non_unique_find_fallback ($call_cond, $attrs)
+ ;
}
- # Run the query
- my $rs = $self->search ($query, $attrs);
- if (keys %{$rs->_resolved_attrs->{collapse}}) {
+ # 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}) {
my $row = $rs->next;
carp "Query returned more than one row" if $rs->next;
return $row;
}
}
-# _add_alias
+# This is a stop-gap method as agreed during the discussion on find() cleanup:
+# http://lists.scsys.co.uk/pipermail/dbix-class/2010-October/009535.html
+#
+# It is invoked when find() is called in legacy-mode with insufficiently-unique
+# condition. It is provided for overrides until a saner way forward is devised
+#
+# *NOTE* This is not a public method, and it's *GUARANTEED* to disappear down
+# the road. Please adjust your tests accordingly to catch this situation early
+# DBIx::Class::ResultSet->can('_non_unique_find_fallback') is reasonable
#
-# Add the specified alias to the specified query hash. A copy is made so the
-# original query is not modified.
+# The method will not be removed without an adequately complete replacement
+# for strict-mode enforcement
+sub _non_unique_find_fallback {
+ my ($self, $cond, $attrs) = @_;
+
+ return $self->_qualify_cond_columns(
+ $cond,
+ exists $attrs->{alias}
+ ? $attrs->{alias}
+ : $self->{attrs}{alias}
+ );
+}
-sub _add_alias {
- my ($self, $query, $alias) = @_;
- my %aliased = %$query;
- foreach my $col (grep { ! m/\./ } keys %aliased) {
- $aliased{"$alias.$col"} = delete $aliased{$col};
+sub _qualify_cond_columns {
+ my ($self, $cond, $alias) = @_;
+
+ my %aliased = %$cond;
+ for (keys %aliased) {
+ $aliased{"$alias.$_"} = delete $aliased{$_}
+ if $_ !~ /\./;
}
return \%aliased;
}
-# _unique_queries
-#
-# Build a list of queries which satisfy unique constraints.
-
-sub _unique_queries {
- my ($self, $query, $attrs) = @_;
+sub _build_unique_cond {
+ my ($self, $constraint_name, $extra_cond, $croak_on_null) = @_;
- my @constraint_names = exists $attrs->{key}
- ? ($attrs->{key})
- : $self->result_source->unique_constraint_names;
+ my @c_cols = $self->result_source->unique_constraint_columns($constraint_name);
- my $where = $self->_collapse_cond($self->{attrs}{where} || {});
- my $num_where = scalar keys %$where;
-
- my (@unique_queries, %seen_column_combinations);
- foreach my $name (@constraint_names) {
- my @constraint_cols = $self->result_source->unique_constraint_columns($name);
-
- my $constraint_sig = join "\x00", sort @constraint_cols;
- next if $seen_column_combinations{$constraint_sig}++;
-
- my $unique_query = $self->_build_unique_query($query, \@constraint_cols);
+ # combination may fail if $self->{cond} is non-trivial
+ my ($final_cond) = try {
+ $self->_merge_with_rscond ($extra_cond)
+ } catch {
+ +{ %$extra_cond }
+ };
- my $num_cols = scalar @constraint_cols;
- my $num_query = scalar keys %$unique_query;
+ # trim out everything not in $columns
+ $final_cond = { map {
+ exists $final_cond->{$_}
+ ? ( $_ => $final_cond->{$_} )
+ : ()
+ } @c_cols };
- my $total = $num_query + $num_where;
- if ($num_query && ($num_query == $num_cols || $total == $num_cols)) {
- # The query is either unique on its own or is unique in combination with
- # the existing where clause
- push @unique_queries, $unique_query;
- }
+ if (my @missing = grep
+ { ! ($croak_on_null ? defined $final_cond->{$_} : exists $final_cond->{$_}) }
+ (@c_cols)
+ ) {
+ $self->throw_exception( sprintf ( "Unable to satisfy requested constraint '%s', no values for column(s): %s",
+ $constraint_name,
+ join (', ', map { "'$_'" } @missing),
+ ) );
}
- return @unique_queries;
-}
-
-# _build_unique_query
-#
-# Constrain the specified query hash based on the specified column names.
-
-sub _build_unique_query {
- my ($self, $query, $unique_cols) = @_;
+ if (
+ !$croak_on_null
+ and
+ !$ENV{DBIC_NULLABLE_KEY_NOWARN}
+ and
+ my @undefs = grep { ! defined $final_cond->{$_} } (keys %$final_cond)
+ ) {
+ carp_unique ( sprintf (
+ "NULL/undef values supplied for requested unique constraint '%s' (NULL "
+ . 'values in column(s): %s). This is almost certainly not what you wanted, '
+ . 'though you can set DBIC_NULLABLE_KEY_NOWARN to disable this warning.',
+ $constraint_name,
+ join (', ', map { "'$_'" } @undefs),
+ ));
+ }
- return {
- map { $_ => $query->{$_} }
- grep { exists $query->{$_} }
- @$unique_cols
- };
+ return $final_cond;
}
=head2 search_related
=over 4
-=item Arguments: $rel, $cond, \%attrs?
+=item Arguments: $rel, $cond?, \%attrs?
-=item Return Value: $new_resultset
+=item Return Value: $new_resultset (scalar context) || @row_objs (list context)
=back
Searches the specified relationship, optionally specifying a condition and
attributes for matching records. See L</ATTRIBUTES> for more information.
+In list context, C<< ->all() >> is called implicitly on the resultset, thus
+returning a list of row objects instead. To avoid that, use L</search_related_rs>.
+
+See also L</search_related_rs>.
+
=cut
sub search_related {
=head2 search_related_rs
This method works exactly the same as search_related, except that
-it guarantees a restultset, even in list context.
+it guarantees a resultset, even in list context.
=cut
=item Arguments: $cond?
-=item Return Value: $row_object?
+=item Return Value: $row_object | undef
=back
my $cd = $schema->resultset('CD')->single({ year => 2001 });
Inflates the first result without creating a cursor if the resultset has
-any records in it; if not returns nothing. Used by L</find> as a lean version of
-L</search>.
+any records in it; if not returns C<undef>. Used by L</find> as a lean version
+of L</search>.
While this method can take an optional search condition (just like L</search>)
being a fast-code-path it does not recognize search attributes. If you need to
=item B<Note>
-As of 0.08100, this method enforces the assumption that the preceeding
+As of 0.08100, this method enforces the assumption that the preceding
query returns only one row. If more than one row is returned, you will receive
a warning:
my $attrs = $self->_resolved_attrs_copy;
- if (keys %{$attrs->{collapse}}) {
- $self->throw_exception(
- 'single() can not be used on resultsets prefetching has_many. Use find( \%cond ) or next() instead'
- );
- }
+ $self->throw_exception(
+ 'single() can not be used on resultsets prefetching has_many. Use find( \%cond ) or next() instead'
+ ) if $attrs->{collapse};
if ($where) {
if (defined $attrs->{where}) {
}
}
-# XXX: Disabled since it doesn't infer uniqueness in all cases
-# unless ($self->_is_unique_query($attrs->{where})) {
-# carp "Query not guaranteed to return a single row"
-# . "; please declare your unique constraints or use search instead";
-# }
-
- my @data = $self->result_source->storage->select_single(
+ my $data = [ $self->result_source->storage->select_single(
$attrs->{from}, $attrs->{select},
$attrs->{where}, $attrs
- );
-
- return (@data ? ($self->_construct_object(@data))[0] : undef);
+ )];
+ return undef unless @$data;
+ $self->{stashed_rows} = [ $data ];
+ $self->_construct_objects->[0];
}
-# _is_unique_query
-#
-# Try to determine if the specified query is guaranteed to be unique, based on
-# the declared unique constraints.
-
-sub _is_unique_query {
- my ($self, $query) = @_;
-
- my $collapsed = $self->_collapse_query($query);
- my $alias = $self->{attrs}{alias};
-
- foreach my $name ($self->result_source->unique_constraint_names) {
- my @unique_cols = map {
- "$alias.$_"
- } $self->result_source->unique_constraint_columns($name);
-
- # Count the values for each unique column
- my %seen = map { $_ => 0 } @unique_cols;
-
- foreach my $key (keys %$collapsed) {
- my $aliased = $key =~ /\./ ? $key : "$alias.$key";
- next unless exists $seen{$aliased}; # Additional constraints are okay
- $seen{$aliased} = scalar keys %{ $collapsed->{$key} };
- }
-
- # If we get 0 or more than 1 value for a column, it's not necessarily unique
- return 1 unless grep { $_ != 1 } values %seen;
- }
-
- return 0;
-}
-
# _collapse_query
#
# Recursively collapse the query, accumulating values for each column.
=item Arguments: $cond, \%attrs?
-=item Return Value: $resultset (scalar context), @row_objs (list context)
+=item Return Value: $resultset (scalar context) || @row_objs (list context)
=back
sub search_like {
my $class = shift;
- carp (
+ carp_unique (
'search_like() is deprecated and will be removed in DBIC version 0.09.'
.' Instead use ->search({ x => { -like => "y%" } })'
.' (note the outer pair of {}s - they are important!)'
=item Arguments: $first, $last
-=item Return Value: $resultset (scalar context), @row_objs (list context)
+=item Return Value: $resultset (scalar context) || @row_objs (list context)
=back
$attrs->{offset} = $self->{attrs}{offset} || 0;
$attrs->{offset} += $min;
$attrs->{rows} = ($max ? ($max - $min + 1) : 1);
- return $self->search(undef(), $attrs);
+ return $self->search(undef, $attrs);
#my $slice = (ref $self)->new($self->result_source, $attrs);
#return (wantarray ? $slice->all : $slice);
}
=item Arguments: none
-=item Return Value: $result?
+=item Return Value: $result | undef
=back
sub next {
my ($self) = @_;
+
if (my $cache = $self->get_cache) {
$self->{all_cache_position} ||= 0;
return $cache->[$self->{all_cache_position}++];
}
+
if ($self->{attrs}{cache}) {
+ delete $self->{pager};
$self->{all_cache_position} = 1;
return ($self->all)[0];
}
- if ($self->{stashed_objects}) {
- my $obj = shift(@{$self->{stashed_objects}});
- delete $self->{stashed_objects} unless @{$self->{stashed_objects}};
- return $obj;
- }
- my @row = (
- exists $self->{stashed_row}
- ? @{delete $self->{stashed_row}}
- : $self->cursor->next
- );
- return undef unless (@row);
- my ($row, @more) = $self->_construct_object(@row);
- $self->{stashed_objects} = \@more if @more;
- return $row;
-}
-sub _construct_object {
- my ($self, @row) = @_;
+ return shift(@{$self->{stashed_objects}}) if @{ $self->{stashed_objects}||[] };
- my $info = $self->_collapse_result($self->{_attrs}{as}, \@row)
- or return ();
- 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;
+ $self->{stashed_objects} = $self->_construct_objects
+ or return undef;
+
+ return shift @{$self->{stashed_objects}};
}
-sub _collapse_result {
- my ($self, $as_proto, $row) = @_;
+# Constructs as many objects as it can in one pass while respecting
+# cursor laziness. Several modes of operation:
+#
+# * Always builds everything present in @{$self->{stashed_rows}}
+# * If called with $fetch_all true - pulls everything off the cursor and
+# builds all objects in one pass
+# * If $self->_resolved_attrs->{collapse} is true, checks the order_by
+# and if the resultset is ordered properly by the left side:
+# * Fetches stuff off the cursor until the "master object" changes,
+# and saves the last extra row (if any) in @{$self->{stashed_rows}}
+# OR
+# * Just fetches, and collapses/constructs everything as if $fetch_all
+# was requested (there is no other way to collapse except for an
+# eager cursor)
+# * If no collapse is requested - just get the next row, construct and
+# return
+sub _construct_objects {
+ my ($self, $fetch_all) = @_;
- # if the first row that ever came in is totally empty - this means we got
- # hit by a smooth^Wempty left-joined resultset. Just noop in that case
- # instead of producing a {}
- #
- my $has_def;
- for (@$row) {
- if (defined $_) {
- $has_def++;
- last;
- }
+ my $rsrc = $self->result_source;
+ my $attrs = $self->_resolved_attrs;
+ my $cursor = $self->cursor;
+
+ # this will be used as both initial raw-row collector AND as a RV of
+ # _construct_objects. Not regrowing the array twice matters a lot...
+ # a suprising amount actually
+ my $rows = (delete $self->{stashed_rows}) || [];
+ if ($fetch_all) {
+ # FIXME SUBOPTIMAL - we can do better, cursor->next/all (well diff. methods) should return a ref
+ $rows = [ @$rows, $cursor->all ];
}
- return undef unless $has_def;
-
- my @copy = @$row;
-
- # 'foo' => [ undef, 'foo' ]
- # 'foo.bar' => [ 'foo', 'bar' ]
- # 'foo.bar.baz' => [ 'foo.bar', 'baz' ]
-
- my @construct_as = map { [ (/^(?:(.*)\.)?([^.]+)$/) ] } @$as_proto;
-
- my %collapse = %{$self->{_attrs}{collapse}||{}};
-
- my @pri_index;
-
- # if we're doing collapsing (has_many prefetch) we need to grab records
- # until the PK changes, so fill @pri_index. if not, we leave it empty so
- # we know we don't have to bother.
-
- # the reason for not using the collapse stuff directly is because if you
- # had for e.g. two artists in a row with no cds, the collapse info for
- # both would be NULL (undef) so you'd lose the second artist
-
- # store just the index so we can check the array positions from the row
- # without having to contruct the full hash
-
- if (keys %collapse) {
- my %pri = map { ($_ => 1) } $self->result_source->primary_columns;
- 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, $i);
- }
- last unless keys %pri; # short circuit (Johnny Five Is Alive!)
- }
+ elsif (!$attrs->{collapse}) {
+ # FIXME SUBOPTIMAL - we can do better, cursor->next/all (well diff. methods) should return a ref
+ push @$rows, do { my @r = $cursor->next; @r ? \@r : () }
+ unless @$rows;
}
+ else {
+ $attrs->{_ordered_for_collapse} ||= (!$attrs->{order_by}) ? undef : do {
+ my $st = $rsrc->schema->storage;
+ my @ord_cols = map
+ { $_->[0] }
+ ( $st->_extract_order_criteria($attrs->{order_by}) )
+ ;
- # no need to do an if, it'll be empty if @pri_index is empty anyway
-
- my %pri_vals = map { ($_ => $copy[$_]) } @pri_index;
-
- my @const_rows;
+ my $colinfos = $st->_resolve_column_info($attrs->{from}, \@ord_cols);
- do { # no need to check anything at the front, we always want the first row
+ for (0 .. $#ord_cols) {
+ if (
+ ! $colinfos->{$ord_cols[$_]}
+ or
+ $colinfos->{$ord_cols[$_]}{-result_source} != $rsrc
+ ) {
+ splice @ord_cols, $_;
+ last;
+ }
+ }
- my %const;
+ # since all we check here are the start of the order_by belonging to the
+ # top level $rsrc, a present identifying set will mean that the resultset
+ # is ordered by its leftmost table in a tsable manner
+ (@ord_cols and $rsrc->_identifying_column_set({ map
+ { $colinfos->{$_}{-colname} => $colinfos->{$_} }
+ @ord_cols
+ })) ? 1 : 0;
+ };
- foreach my $this_as (@construct_as) {
- $const{$this_as->[0]||''}{$this_as->[1]} = shift(@copy);
+ if ($attrs->{_ordered_for_collapse}) {
+ push @$rows, do { my @r = $cursor->next; @r ? \@r : () };
}
+ # instead of looping over ->next, use ->all in stealth mode
+ # FIXME - encapsulation breach, got to be a better way
+ elsif (! $cursor->{done}) {
+ push @$rows, $cursor->all;
+ $cursor->{done} = 1;
+ $fetch_all = 1;
+ }
+ }
- push(@const_rows, \%const);
-
- } until ( # no pri_index => no collapse => drop straight out
- !@pri_index
- or
- do { # get another row, stash it, drop out if different PK
+ return undef unless @$rows;
- @copy = $self->cursor->next;
- $self->{stashed_row} = \@copy;
+ my $res_class = $self->result_class;
+ my $inflator = $res_class->can ('inflate_result')
+ or $self->throw_exception("Inflator $res_class does not provide an inflate_result() method");
- # last thing in do block, counts as true if anything doesn't match
+ my $infmap = $attrs->{as};
- # check xor defined first for NULL vs. NOT NULL then if one is
- # defined the other must be so check string equality
+ if (!$attrs->{collapse} and $attrs->{_single_object_inflation}) {
+ # construct a much simpler array->hash folder for the one-table cases right here
- grep {
- (defined $pri_vals{$_} ^ defined $copy[$_])
- || (defined $pri_vals{$_} && ($pri_vals{$_} ne $copy[$_]))
- } @pri_index;
+ # FIXME SUBOPTIMAL this is a very very very hot spot
+ # while rather optimal we can *still* do much better, by
+ # building a smarter [Row|HRI]::inflate_result(), and
+ # switch to feeding it data via a much leaner interface
+ #
+ # crude unscientific benchmarking indicated the shortcut eval is not worth it for
+ # this particular resultset size
+ if (@$rows < 60) {
+ my @as_idx = 0..$#$infmap;
+ for my $r (@$rows) {
+ $r = $inflator->($res_class, $rsrc, { map { $infmap->[$_] => $r->[$_] } @as_idx } );
}
- );
-
- my $alias = $self->{attrs}{alias};
- my $info = [];
-
- my %collapse_pos;
+ }
+ else {
+ eval sprintf (
+ '$_ = $inflator->($res_class, $rsrc, { %s }) for @$rows',
+ join (', ', map { "\$infmap->[$_] => \$_->[$_]" } 0..$#$infmap )
+ );
+ }
+ }
+ else {
+ ($self->{_row_parser} ||= eval sprintf 'sub { %s }', $rsrc->_mk_row_parser({
+ inflate_map => $infmap,
+ selection => $attrs->{select},
+ collapse => $attrs->{collapse},
+ }) or die $@)->($rows, $fetch_all ? () : (
+ # FIXME SUBOPTIMAL - we can do better, cursor->next/all (well diff. methods) should return a ref
+ sub { my @r = $cursor->next or return; \@r }, # how the collapser gets more rows
+ ($self->{stashed_rows} = []), # where does it stuff excess
+ )); # modify $rows in-place, shrinking/extending as necessary
+
+ $_ = $inflator->($res_class, $rsrc, @$_) for @$rows;
- my @const_keys;
+ }
- 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};
- }
- }
+ # CDBI compat stuff
+ if ($attrs->{record_filter}) {
+ $_ = $attrs->{record_filter}->($_) for @$rows;
}
- return $info;
+ return $rows;
}
=head2 result_source
sub result_class {
my ($self, $result_class) = @_;
if ($result_class) {
- $self->ensure_class_loaded($result_class);
+ unless (ref $result_class) { # don't fire this for an object
+ $self->ensure_class_loaded($result_class);
+ }
$self->_result_class($result_class);
+ # THIS LINE WOULD BE A BUG - this accessor specifically exists to
+ # permit the user to set result class on one result set only; it only
+ # chains if provided to search()
+ #$self->{attrs}{result_class} = $result_class if ref $self;
}
$self->_result_class;
}
# this is a little optimization - it is faster to do the limit
# adjustments in software, instead of a subquery
- my $rows = delete $attrs->{rows};
- my $offset = delete $attrs->{offset};
+ my ($rows, $offset) = delete @{$attrs}{qw/rows offset/};
my $crs;
if ($self->_has_resolved_attr (qw/collapse group_by/)) {
$attrs ||= $self->_resolved_attrs;
my $tmp_attrs = { %$attrs };
-
- # take off any limits, record_filter is cdbi, and no point of ordering a count
- delete $tmp_attrs->{$_} for (qw/select as rows offset order_by record_filter/);
+ # take off any limits, record_filter is cdbi, and no point of ordering nor locking a count
+ delete @{$tmp_attrs}{qw/rows offset order_by record_filter for/};
# overwrite the selector (supplied by the storage)
- $tmp_attrs->{select} = $rsrc->storage->_count_select ($rsrc, $tmp_attrs);
+ $tmp_attrs->{select} = $rsrc->storage->_count_select ($rsrc, $attrs);
$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}, $tmp_attrs->{alias}
- );
-
my $tmp_rs = $rsrc->resultset_class->new($rsrc, $tmp_attrs)->get_column ('count');
return $tmp_rs;
my ($self, $attrs) = @_;
my $rsrc = $self->result_source;
- $attrs ||= $self->_resolved_attrs_copy;
+ $attrs ||= $self->_resolved_attrs;
my $sub_attrs = { %$attrs };
-
- # extra selectors do not go in the subquery and there is no point of ordering it
- delete $sub_attrs->{$_} for qw/collapse select _prefetch_select as order_by/;
-
- # if we prefetch, we group_by primary keys only as this is what we would get out
- # of the rs via ->next/->all. We DO WANT to clobber old group_by regardless
- if ( keys %{$attrs->{collapse}} ) {
- $sub_attrs->{group_by} = [ map { "$attrs->{alias}.$_" } ($rsrc->primary_columns) ]
+ # extra selectors do not go in the subquery and there is no point of ordering it, nor locking it
+ delete @{$sub_attrs}{qw/collapse columns as select _prefetch_selector_range order_by for/};
+
+ # 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} ) {
+ $sub_attrs->{group_by} = [ map { "$attrs->{alias}.$_" } @{
+ $rsrc->_identifying_column_set || $self->throw_exception(
+ 'Unable to construct a unique group_by criteria properly collapsing the '
+ . 'has_many prefetch before count()'
+ );
+ } ]
}
- $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}, $sub_attrs->{alias}
- );
-
- # this is so that ordering can be thrown away in things like Top limit
- $sub_attrs->{-for_count_only} = 1;
+ # Calculate subquery selector
+ if (my $g = $sub_attrs->{group_by}) {
- my $sub_rs = $rsrc->resultset_class->new ($rsrc, $sub_attrs);
+ my $sql_maker = $rsrc->storage->sql_maker;
- $attrs->{from} = [{
- -alias => 'count_subq',
- -source_handle => $rsrc->handle,
- count_subq => $sub_rs->as_query,
- }];
+ # necessary as the group_by may refer to aliased functions
+ my $sel_index;
+ for my $sel (@{$attrs->{select}}) {
+ $sel_index->{$sel->{-as}} = $sel
+ if (ref $sel eq 'HASH' and $sel->{-as});
+ }
- # the subquery replaces this
- delete $attrs->{$_} for qw/where bind collapse group_by having having_bind rows offset/;
+ # anything from the original select mentioned on the group-by needs to make it to the inner selector
+ # also look for named aggregates referred in the having clause
+ # having often contains scalarrefs - thus parse it out entirely
+ my @parts = @$g;
+ if ($attrs->{having}) {
+ local $sql_maker->{having_bind};
+ local $sql_maker->{quote_char} = $sql_maker->{quote_char};
+ local $sql_maker->{name_sep} = $sql_maker->{name_sep};
+ unless (defined $sql_maker->{quote_char} and length $sql_maker->{quote_char}) {
+ $sql_maker->{quote_char} = [ "\x00", "\xFF" ];
+ # if we don't unset it we screw up retarded but unfortunately working
+ # 'MAX(foo.bar)' => { '>', 3 }
+ $sql_maker->{name_sep} = '';
+ }
- return $self->_count_rs ($attrs);
-}
+ my ($lquote, $rquote, $sep) = map { quotemeta $_ } ($sql_maker->_quote_chars, $sql_maker->name_sep);
+ my $sql = $sql_maker->_parse_rs_attrs ({ having => $attrs->{having} });
-# 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 = $j->[0]{-join_path};
- last JOINSCAN;
+ # search for both a proper quoted qualified string, for a naive unquoted scalarref
+ # and if all fails for an utterly naive quoted scalar-with-function
+ while ($sql =~ /
+ $rquote $sep $lquote (.+?) $rquote
+ |
+ [\s,] \w+ \. (\w+) [\s,]
+ |
+ [\s,] $lquote (.+?) $rquote [\s,]
+ /gx) {
+ push @parts, ($1 || $2 || $3); # one of them matched if we got here
+ }
}
- }
-
- # 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};
+ for (@parts) {
+ my $colpiece = $sel_index->{$_} || $_;
- if ($sw_idx->{$jalias}) {
- my %attrs = %{$j->[0]};
- delete $attrs{-join_type};
- push @new_from, [
- \%attrs,
- @{$j}[ 1 .. $#$j ],
- ];
- }
- else {
- push @new_from, $j;
+ # unqualify join-based group_by's. Arcane but possible query
+ # also horrible horrible hack to alias a column (not a func.)
+ # (probably need to introduce SQLA syntax)
+ if ($colpiece =~ /\./ && $colpiece !~ /^$attrs->{alias}\./) {
+ my $as = $colpiece;
+ $as =~ s/\./__/;
+ $colpiece = \ sprintf ('%s AS %s', map { $sql_maker->_quote ($_) } ($colpiece, $as) );
+ }
+ push @{$sub_attrs->{select}}, $colpiece;
}
}
+ else {
+ my @pcols = map { "$attrs->{alias}.$_" } ($rsrc->primary_columns);
+ $sub_attrs->{select} = @pcols ? \@pcols : [ 1 ];
+ }
- return \@new_from;
+ return $rsrc->resultset_class
+ ->new ($rsrc, $sub_attrs)
+ ->as_subselect_rs
+ ->search ({}, { columns => { count => $rsrc->storage->_count_select ($rsrc, $attrs) } })
+ ->get_column ('count');
}
-
sub _bool {
return 1;
}
=back
-Returns all elements in the resultset. Called implicitly if the resultset
-is returned in list context.
+Returns all elements in the resultset.
=cut
sub all {
my $self = shift;
if(@_) {
- $self->throw_exception("all() doesn't take any arguments, you probably wanted ->search(...)->all()");
+ $self->throw_exception("all() doesn't take any arguments, you probably wanted ->search(...)->all()");
}
- return @{ $self->get_cache } if $self->get_cache;
-
- my @obj;
+ delete @{$self}{qw/stashed_rows stashed_objects/};
- 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_object to survive the approach
- $self->cursor->reset;
- my @row = $self->cursor->next;
- while (@row) {
- push(@obj, $self->_construct_object(@row));
- @row = (exists $self->{stashed_row}
- ? @{delete $self->{stashed_row}}
- : $self->cursor->next);
- }
- } else {
- @obj = map { $self->_construct_object(@$_) } $self->cursor->all;
+ if (my $c = $self->get_cache) {
+ return @$c;
}
- $self->set_cache(\@obj) if $self->{attrs}{cache};
+ $self->cursor->reset;
+
+ my $objs = $self->_construct_objects('fetch_all') || [];
+
+ $self->set_cache($objs) if $self->{attrs}{cache};
- return @obj;
+ return @$objs;
}
=head2 reset
sub reset {
my ($self) = @_;
- delete $self->{_attrs} if exists $self->{_attrs};
+
+ delete @{$self}{qw/_attrs stashed_rows stashed_objects/};
+
$self->{all_cache_position} = 0;
$self->cursor->reset;
return $self;
=item Arguments: none
-=item Return Value: $object?
+=item Return Value: $object | undef
=back
-Resets the resultset and returns an object for the first result (if the
-resultset returns anything).
+Resets the resultset and returns an object for the first result (or C<undef>
+if the resultset is empty).
=cut
sub _rs_update_delete {
my ($self, $op, $values) = @_;
+ my $cond = $self->{cond};
my $rsrc = $self->result_source;
+ my $storage = $rsrc->schema->storage;
+
+ 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};
+
+ # simplify the joinmap and maybe decide if a grouping (and thus subquery) is necessary
+ my $relation_classifications;
+ if (ref($attrs->{from}) eq 'ARRAY') {
+ if (@{$attrs->{from}} == 1) {
+ # not a fucking JOIN at all, quit with the dickery
+ $relation_classifications = {};
+ } else {
+ $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
+ }
+ }
+ else {
+ $needs_group_by_subq ||= 1; # if {from} is unparseable assume the worst
+ }
- my $needs_group_by_subq = $self->_has_resolved_attr (qw/collapse group_by -join/);
- my $needs_subq = $self->_has_resolved_attr (qw/row offset/);
+ $needs_group_by_subq ||= exists $relation_classifications->{multiplying};
- if ($needs_group_by_subq or $needs_subq) {
+ # 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
+ ) {
+ # 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. Tell SQLMaker to dequalify idents via a gross hack.
+ my $sqla = $rsrc->storage->sql_maker;
+ local $sqla->{_dequalify_idents} = 1;
+ return $rsrc->storage->$op(
+ $rsrc,
+ $op eq 'update' ? $values : (),
+ $self->{cond},
+ );
+ }
- # make a new $rs selecting only the PKs (that's all we really need)
- my $attrs = $self->_resolved_attrs_copy;
+ # we got this far - means it is time to wrap a subquery
+ my $idcols = $rsrc->_identifying_column_set || $self->throw_exception(
+ sprintf(
+ "Unable to perform complex resultset %s() without an identifying set of columns on source '%s'",
+ $op,
+ $rsrc->source_name,
+ )
+ );
+ my $existing_group_by = delete $attrs->{group_by};
- delete $attrs->{$_} for qw/collapse select as/;
- $attrs->{columns} = [ map { "$attrs->{alias}.$_" } ($self->result_source->primary_columns) ];
+ # make a new $rs selecting only the PKs (that's all we really need for the subq)
+ delete @{$attrs}{qw/collapse select _prefetch_selector_range as/};
+ $attrs->{columns} = [ map { "$attrs->{alias}.$_" } @$idcols ];
+ $attrs->{group_by} = \ ''; # FIXME - this is an evil hack, it causes the optimiser to kick in and throw away the LEFT joins
+ my $subrs = (ref $self)->new($rsrc, $attrs);
+ if (@$idcols == 1) {
+ return $storage->$op (
+ $rsrc,
+ $op eq 'update' ? $values : (),
+ { $idcols->[0] => { -in => $subrs->as_query } },
+ );
+ }
+ elsif ($storage->_use_multicolumn_in) {
+ # This is hideously ugly, but SQLA does not understand multicol IN expressions
+ my $sql_maker = $storage->sql_maker;
+ my ($sql, @bind) = @${$subrs->as_query};
+ $sql = sprintf ('(%s) IN %s', # the as_query already comes with a set of parenthesis
+ join (', ', map { $sql_maker->_quote ($_) } @$idcols),
+ $sql,
+ );
+
+ return $storage->$op (
+ $rsrc,
+ $op eq 'update' ? $values : (),
+ \[$sql, @bind],
+ );
+ }
+ 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) {
- # make sure no group_by was supplied, or if there is one - make sure it matches
- # the columns compiled above perfectly. Anything else can not be sanely executed
- # on most databases so croak right then and there
+ $subq_group_by = $attrs->{columns};
- if (my $g = $attrs->{group_by}) {
+ # make sure if there is a supplied group_by it matches the columns compiled above
+ # perfectly. Anything else can not be sanely executed on most databases so croak
+ # right then and there
+ if ($existing_group_by) {
my @current_group_by = map
{ $_ =~ /\./ ? $_ : "$attrs->{alias}.$_" }
- @$g
+ @$existing_group_by
;
if (
join ("\x00", sort @current_group_by)
ne
- join ("\x00", sort @{$attrs->{columns}} )
+ join ("\x00", sort @$subq_group_by )
) {
$self->throw_exception (
"You have just attempted a $op operation on a resultset which does group_by"
);
}
}
- else {
- $attrs->{group_by} = $attrs->{columns};
- }
}
- my $subrs = (ref $self)->new($rsrc, $attrs);
+ my $guard = $storage->txn_scope_guard;
- return $self->result_source->storage->_subq_update_delete($subrs, $op, $values);
- }
- else {
- return $rsrc->storage->$op(
+ my @op_condition;
+ for my $row ($subrs->search({}, { group_by => $subq_group_by })->cursor->all) {
+ push @op_condition, { map
+ { $idcols->[$_] => $row->[$_] }
+ (0 .. $#$idcols)
+ };
+ }
+
+ my $res = $storage->$op (
$rsrc,
$op eq 'update' ? $values : (),
- $self->_cond_for_update_delete,
+ \@op_condition,
);
- }
-}
+ $guard->commit;
-# _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};
- }
- }
+ return $res;
}
- else {
- $self->throw_exception("Can't update/delete on resultset with condition unless hash or array");
- }
-
- return $cond;
}
-
=head2 update
=over 4
=back
Sets the specified columns in the resultset to the supplied values in a
-single query. Return value will be true if the update succeeded or false
-if no records were updated; exact type of success value is storage-dependent.
+single query. Note that this will not run any accessor/set_column/update
+triggers, nor will it update any row object instances derived from this
+resultset (this includes the contents of the L<resultset cache|/set_cache>
+if any). See L</update_all> if you need to execute any on-update
+triggers or cascades defined either by you or a
+L<result component|DBIx::Class::Manual::Component/WHAT IS A COMPONENT>.
+
+The return value is a pass through of what the underlying
+storage backend returned, and may vary. See L<DBI/execute> for the most
+common case.
+
+=head3 CAVEAT
+
+Note that L</update> does not process/deflate any of the values passed in.
+This is unlike the corresponding L<DBIx::Class::Row/update>. The user must
+ensure manually that any value passed to this method will stringify to
+something the RDBMS knows how to deal with. A notable example is the
+handling of L<DateTime> objects, for more info see:
+L<DBIx::Class::Manual::Cookbook/Formatting DateTime objects in queries>.
=cut
=back
-Fetches all objects and updates them one at a time. Note that C<update_all>
-will run DBIC cascade triggers, while L</update> will not.
+Fetches all objects and updates them one at a time via
+L<DBIx::Class::Row/update>. Note that C<update_all> will run DBIC defined
+triggers, while L</update> will not.
=cut
my ($self, $values) = @_;
$self->throw_exception('Values for update_all must be a hash')
unless ref $values eq 'HASH';
- foreach my $obj ($self->all) {
- $obj->set_columns($values)->update;
- }
+
+ my $guard = $self->result_source->schema->txn_scope_guard;
+ $_->update({%$values}) for $self->all; # shallow copy - update will mangle it
+ $guard->commit;
return 1;
}
=back
-Deletes the contents of the resultset from its result source. Note that this
-will not run DBIC cascade triggers. See L</delete_all> if you need triggers
-to run. See also L<DBIx::Class::Row/delete>.
+Deletes the rows matching this resultset in a single query. Note that this
+will not run any delete triggers, nor will it alter the
+L<in_storage|DBIx::Class::Row/in_storage> status of any row object instances
+derived from this resultset (this includes the contents of the
+L<resultset cache|/set_cache> if any). See L</delete_all> if you need to
+execute any on-delete triggers or cascades defined either by you or a
+L<result component|DBIx::Class::Manual::Component/WHAT IS A COMPONENT>.
-Return value will be the amount of rows deleted; exact type of return value
-is storage-dependent.
+The return value is a pass through of what the underlying storage backend
+returned, and may vary. See L<DBI/execute> for the most common case.
=cut
=back
-Fetches all objects and deletes them one at a time. Note that C<delete_all>
-will run DBIC cascade triggers, while L</delete> will not.
+Fetches all objects and deletes them one at a time via
+L<DBIx::Class::Row/delete>. Note that C<delete_all> will run DBIC defined
+triggers, while L</delete> will not.
=cut
$self->throw_exception('delete_all does not accept any arguments')
if @_;
+ my $guard = $self->result_source->schema->txn_scope_guard;
$_->delete for $self->all;
+ $guard->commit;
return 1;
}
Accepts either an arrayref of hashrefs or alternatively an arrayref of arrayrefs.
For the arrayref of hashrefs style each hashref should be a structure suitable
-forsubmitting to a $resultset->create(...) method.
+for submitting to a $resultset->create(...) method.
In void context, C<insert_bulk> in L<DBIx::Class::Storage::DBI> is used
to insert the data, as this is a faster method.
],
},
{ artistid => 5, name => 'Angsty-Whiny Girl', cds => [
- { title => 'My parents sold me to a record company' ,year => 2005 },
+ { title => 'My parents sold me to a record company', year => 2005 },
{ title => 'Why Am I So Ugly?', year => 2006 },
{ title => 'I Got Surgery and am now Popular', year => 2007 }
],
[qw/artistid name/],
[100, 'A Formally Unknown Singer'],
[101, 'A singer that jumped the shark two albums ago'],
- [102, 'An actually cool singer.'],
+ [102, 'An actually cool singer'],
]);
Please note an important effect on your data when choosing between void and
=cut
sub populate {
- my $self = shift @_;
- my $data = ref $_[0][0] eq 'HASH'
- ? $_[0] : ref $_[0][0] eq 'ARRAY' ? $self->_normalize_populate_args($_[0]) :
- $self->throw_exception('Populate expects an arrayref of hashes or arrayref of arrayrefs');
+ my $self = shift;
+
+ # cruft placed in standalone method
+ my $data = $self->_normalize_populate_args(@_);
+
+ return unless @$data;
if(defined wantarray) {
my @created;
push(@created, $self->create($item));
}
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;
+ }
+ else {
+ 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);
+ my $rsrc = $self->result_source;
+ my $rels = { map { $_ => $rsrc->relationship_info($_) } $rsrc->relationships };
+ for (keys %$first) {
+ my $ref = ref $first->{$_};
+ $rels->{$_} && ($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;
+ my @pks = $rsrc->primary_columns;
## do the belongs_to relationships
foreach my $index (0..$#$data) {
foreach my $rel (@rels) {
next unless ref $data->[$index]->{$rel} eq "HASH";
my $result = $self->related_resultset($rel)->create($data->[$index]->{$rel});
- my ($reverse) = keys %{$self->result_source->reverse_relationship_info($rel)};
+ my ($reverse_relname, $reverse_relinfo) = %{$rsrc->reverse_relationship_info($rel)};
my $related = $result->result_source->_resolve_condition(
- $result->result_source->relationship_info($reverse)->{cond},
+ $reverse_relinfo->{cond},
$self,
$result,
+ $rel,
);
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} ] } @$data;
+ ## inherit the data locked in the conditions of the resultset
+ my ($rs_data) = $self->_merge_with_rscond({});
+ delete @{$rs_data}{@columns};
+ my @inherit_cols = keys %$rs_data;
+ my @inherit_data = values %$rs_data;
- $self->result_source->storage->insert_bulk(
- $self->result_source,
- \@names,
- \@values,
+ ## do bulk insert on current row
+ $rsrc->storage->insert_bulk(
+ $rsrc,
+ [@columns, @inherit_cols],
+ [ map { [ @$_{@columns}, @inherit_data ] } @$data ],
);
## do the has_many relationships
foreach my $item (@$data) {
+ my $main_row;
+
foreach my $rel (@rels) {
- next unless $item->{$rel} && ref $item->{$rel} eq "ARRAY";
+ next unless ref $item->{$rel} eq "ARRAY" && @{ $item->{$rel} };
- my $parent = $self->find(map {{$_=>$item->{$_}} } @pks)
- || $self->throw_exception('Cannot find the relating object.');
+ $main_row ||= $self->new_result({map { $_ => $item->{$_} } @pks});
- my $child = $parent->$rel;
+ my $child = $main_row->$rel;
my $related = $child->result_source->_resolve_condition(
- $parent->result_source->relationship_info($rel)->{cond},
+ $rels->{$rel}{cond},
$child,
- $parent,
+ $main_row,
+ $rel,
);
my @rows_to_add = ref $item->{$rel} eq 'ARRAY' ? @{$item->{$rel}} : ($item->{$rel});
}
}
-=head2 _normalize_populate_args ($args)
-
-Private method used by L</populate> to normalize its incoming arguments. Factored
-out in case you want to subclass and accept new argument structures to the
-L</populate> method.
-
-=cut
+# populate() argumnets went over several incarnations
+# What we ultimately support is AoH
sub _normalize_populate_args {
- my ($self, $data) = @_;
- my @names = @{shift(@$data)};
- my @results_to_create;
- foreach my $datum (@$data) {
- my %result_to_create;
- foreach my $index (0..$#names) {
- $result_to_create{$names[$index]} = $$datum[$index];
+ my ($self, $arg) = @_;
+
+ if (ref $arg eq 'ARRAY') {
+ if (!@$arg) {
+ return [];
+ }
+ elsif (ref $arg->[0] eq 'HASH') {
+ return $arg;
+ }
+ elsif (ref $arg->[0] eq 'ARRAY') {
+ my @ret;
+ my @colnames = @{$arg->[0]};
+ foreach my $values (@{$arg}[1 .. $#$arg]) {
+ push @ret, { map { $colnames[$_] => $values->[$_] } (0 .. $#colnames) };
+ }
+ return \@ret;
}
- push @results_to_create, \%result_to_create;
}
- return \@results_to_create;
+
+ $self->throw_exception('Populate expects an arrayref of hashrefs or arrayref of arrayrefs');
}
=head2 pager
return $self->{pager} if $self->{pager};
my $attrs = $self->{attrs};
- $self->throw_exception("Can't create pager for non-paged rs")
- unless $self->{attrs}{page};
+ if (!defined $attrs->{page}) {
+ $self->throw_exception("Can't create pager for non-paged rs");
+ }
+ elsif ($attrs->{page} <= 0) {
+ $self->throw_exception('Invalid page number (page-numbers are 1-based)');
+ }
$attrs->{rows} ||= 10;
# throw away the paging flags and re-run the count (possibly
# with a subselect) to get the real total count
my $count_attrs = { %$attrs };
- delete $count_attrs->{$_} for qw/rows offset page pager/;
- my $total_count = (ref $self)->new($self->result_source, $count_attrs)->count;
+ delete @{$count_attrs}{qw/rows offset page pager/};
+
+ my $total_rs = (ref $self)->new($self->result_source, $count_attrs);
- return $self->{pager} = Data::Page->new(
- $total_count,
+ require DBIx::Class::ResultSet::Pager;
+ return $self->{pager} = DBIx::Class::ResultSet::Pager->new(
+ sub { $total_rs->count }, #lazy-get the total
$attrs->{rows},
- $self->{attrs}{page}
+ $self->{attrs}{page},
);
}
$self->throw_exception( "new_result needs a hash" )
unless (ref $values eq 'HASH');
- my %new;
+ my ($merged_cond, $cols_from_relations) = $self->_merge_with_rscond($values);
+
+ my %new = (
+ %$merged_cond,
+ @$cols_from_relations
+ ? (-cols_from_relations => $cols_from_relations)
+ : (),
+ -result_source => $self->result_source, # DO NOT REMOVE THIS, REQUIRED
+ );
+
+ return $self->result_class->new(\%new);
+}
+
+# _merge_with_rscond
+#
+# Takes a simple hash of K/V data and returns its copy merged with the
+# condition already present on the resultset. Additionally returns an
+# arrayref of value/condition names, which were inferred from related
+# objects (this is needed for in-memory related objects)
+sub _merge_with_rscond {
+ my ($self, $data) = @_;
+
+ my (%new_data, @cols_from_relations);
+
my $alias = $self->{attrs}{alias};
- if (
- defined $self->{cond}
- && $self->{cond} eq $DBIx::Class::ResultSource::UNRESOLVABLE_CONDITION
- ) {
- %new = %{ $self->{attrs}{related_objects} || {} }; # nothing might have been inserted yet
- $new{-from_resultset} = [ keys %new ] if keys %new;
- } else {
+ if (! defined $self->{cond}) {
+ # just massage $data below
+ }
+ elsif ($self->{cond} eq $DBIx::Class::ResultSource::UNRESOLVABLE_CONDITION) {
+ %new_data = %{ $self->{attrs}{related_objects} || {} }; # nothing might have been inserted yet
+ @cols_from_relations = keys %new_data;
+ }
+ elsif (ref $self->{cond} ne 'HASH') {
$self->throw_exception(
- "Can't abstract implicit construct, condition not a hash"
- ) if ($self->{cond} && !(ref $self->{cond} eq 'HASH'));
-
- my $collapsed_cond = (
- $self->{cond}
- ? $self->_collapse_cond($self->{cond})
- : {}
+ "Can't abstract implicit construct, resultset condition not a hash"
);
-
+ }
+ else {
# precendence must be given to passed values over values inherited from
# the cond, so the order here is important.
- my %implied = %{$self->_remove_alias($collapsed_cond, $alias)};
- while( my($col,$value) = each %implied ){
- if(ref($value) eq 'HASH' && keys(%$value) && (keys %$value)[0] eq '='){
- $new{$col} = $value->{'='};
- next;
+ my $collapsed_cond = $self->_collapse_cond($self->{cond});
+ my %implied = %{$self->_remove_alias($collapsed_cond, $alias)};
+
+ while ( my($col, $value) = each %implied ) {
+ my $vref = ref $value;
+ if (
+ $vref eq 'HASH'
+ and
+ keys(%$value) == 1
+ and
+ (keys %$value)[0] eq '='
+ ) {
+ $new_data{$col} = $value->{'='};
+ }
+ elsif( !$vref or $vref eq 'SCALAR' or blessed($value) ) {
+ $new_data{$col} = $value;
}
- $new{$col} = $value if $self->_is_deterministic_value($value);
}
}
- %new = (
- %new,
- %{ $self->_remove_alias($values, $alias) },
- -source_handle => $self->_source_handle,
- -result_source => $self->result_source, # DO NOT REMOVE THIS, REQUIRED
+ %new_data = (
+ %new_data,
+ %{ $self->_remove_alias($data, $alias) },
);
- return $self->result_class->new(\%new);
-}
-
-# _is_deterministic_value
-#
-# Make an effor to strip non-deterministic values from the condition,
-# to make sure new_result chokes less
-
-sub _is_deterministic_value {
- my $self = shift;
- my $value = shift;
- my $ref_type = ref $value;
- return 1 if $ref_type eq '' || $ref_type eq 'SCALAR';
- return 1 if Scalar::Util::blessed($value);
- return 0;
+ return (\%new_data, \@cols_from_relations);
}
# _has_resolved_attr
return \%unaliased;
}
-=head2 as_query (EXPERIMENTAL)
+=head2 as_query
=over 4
This is generally used as the RHS for a subquery.
-B<NOTE>: This feature is still experimental.
-
=cut
sub as_query {
$cd->cd_to_producer->find_or_new({ producer => $producer },
{ key => 'primary });
-Find an existing record from this resultset, based on its primary
-key, or a unique constraint. If none exists, instantiate a new result
-object and return it. The object will not be saved into your storage
-until you call L<DBIx::Class::Row/insert> on it.
+Find an existing record from this resultset using L</find>. if none exists,
+instantiate a new result object and return it. The object will not be saved
+into your storage until you call L<DBIx::Class::Row/insert> on it.
-You most likely want this method when looking for existing rows using
-a unique constraint that is not the primary key, or looking for
-related rows.
+You most likely want this method when looking for existing rows using a unique
+constraint that is not the primary key, or looking for related rows.
-If you want objects to be saved immediately, use L</find_or_create>
-instead.
+If you want objects to be saved immediately, use L</find_or_create> instead.
+
+B<Note>: Make sure to read the documentation of L</find> and understand the
+significance of the C<key> attribute, as its lack may skew your search, and
+subsequently result in spurious new objects.
B<Note>: Take care when using C<find_or_new> with a table having
columns with default values that you intend to be automatically
B<keyed on the relationship name>. If the relationship is of type C<multi>
(L<DBIx::Class::Relationship/has_many>) - pass an arrayref of hashrefs.
The process will correctly identify columns holding foreign keys, and will
-transparrently populate them from the keys of the corresponding relation.
+transparently populate them from the keys of the corresponding relation.
This can be applied recursively, and will work correctly for a structure
with an arbitrary depth and width, as long as the relationships actually
exists and the correct column data has been supplied.
);
Example of creating a new row and also creating a row in a related
-C<belongs_to>resultset. Note Hashref.
+C<belongs_to> resultset. Note Hashref.
$cd_rs->create({
title=>"Music for Silly Walks",
{ key => 'cd_artist_title' }
);
+B<Note>: Make sure to read the documentation of L</find> and understand the
+significance of the C<key> attribute, as its lack may skew your search, and
+subsequently result in spurious row creation.
+
B<Note>: Because find_or_create() reads from the database and then
possibly inserts based on the result, this method is subject to a race
condition. Another process could create a record in the table after
See also L</find> and L</update_or_create>. For information on how to declare
unique constraints, see L<DBIx::Class::ResultSource/add_unique_constraint>.
+If you need to know if an existing row was found or a new one created use
+L</find_or_new> and L<DBIx::Class::Row/in_storage> instead. Don't forget
+to call L<DBIx::Class::Row/insert> to save the newly created row to the
+database!
+
+ my $cd = $schema->resultset('CD')->find_or_new({
+ cdid => 5,
+ artist => 'Massive Attack',
+ title => 'Mezzanine',
+ year => 2005,
+ });
+
+ if( $cd->in_storage ) {
+ # do some stuff
+ $cd->insert;
+ }
+
=cut
sub find_or_create {
=item Arguments: \%col_values, { key => $unique_constraint }?
-=item Return Value: $rowobject
+=item Return Value: $row_object
=back
$resultset->update_or_create({ col => $val, ... });
-First, searches for an existing row matching one of the unique constraints
-(including the primary key) on the source of this resultset. If a row is
-found, updates it with the other given column values. Otherwise, creates a new
-row.
+Like L</find_or_create>, but if a row is found it is immediately updated via
+C<< $found_row->update (\%col_values) >>.
+
Takes an optional C<key> attribute to search on a specific unique constraint.
For example:
producer => $producer,
name => 'harry',
}, {
- key => 'primary,
+ key => 'primary',
});
-
-If no C<key> is specified, it searches on all unique constraints defined on the
-source, including the primary key.
-
-If the C<key> is specified as C<primary>, it searches only on the primary key.
-
-See also L</find> and L</find_or_create>. For information on how to declare
-unique constraints, see L<DBIx::Class::ResultSource/add_unique_constraint>.
+B<Note>: Make sure to read the documentation of L</find> and understand the
+significance of the C<key> attribute, as its lack may skew your search, and
+subsequently result in spurious row creation.
B<Note>: Take care when using C<update_or_create> with a table having
columns with default values that you intend to be automatically
In normal usage, the value of such columns should NOT be included at
all in the call to C<update_or_create>, even when set to C<undef>.
+See also L</find> and L</find_or_create>. For information on how to declare
+unique constraints, see L<DBIx::Class::ResultSource/add_unique_constraint>.
+
+If you need to know if an existing row was updated or a new one created use
+L</update_or_new> and L<DBIx::Class::Row/in_storage> instead. Don't forget
+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 {
$resultset->update_or_new({ col => $val, ... });
-First, searches for an existing row matching one of the unique constraints
-(including the primary key) on the source of this resultset. If a row is
-found, updates it with the other given column values. Otherwise, instantiate
-a new result object and return it. The object will not be saved into your storage
-until you call L<DBIx::Class::Row/insert> on it.
+Like L</find_or_new> but if a row is found it is immediately updated via
+C<< $found_row->update (\%col_values) >>.
-Takes an optional C<key> attribute to search on a specific unique constraint.
For example:
# In your application
$cd->insert;
}
+B<Note>: Make sure to read the documentation of L</find> and understand the
+significance of the C<key> attribute, as its lack may skew your search, and
+subsequently result in spurious new objects.
+
B<Note>: Take care when using C<update_or_new> with a table having
columns with default values that you intend to be automatically
supplied by the database (e.g. an auto_increment primary key column).
=item Arguments: none
-=item Return Value: \@cache_objects?
+=item Return Value: \@cache_objects | undef
=back
=item Arguments: none
-=item Return Value: []
+=item Return Value: undef
=back
return !!$self->{attrs}{page};
}
+=head2 is_ordered
+
+=over 4
+
+=item Arguments: none
+
+=item Return Value: true, if the resultset has been ordered with C<order_by>.
+
+=back
+
+=cut
+
+sub is_ordered {
+ my ($self) = @_;
+ return scalar $self->result_source->storage->_extract_order_criteria($self->{attrs}{order_by});
+}
+
=head2 related_resultset
=over 4
$self->{related_resultsets} ||= {};
return $self->{related_resultsets}{$rel} ||= do {
- my $rel_info = $self->result_source->relationship_info($rel);
+ my $rsrc = $self->result_source;
+ my $rel_info = $rsrc->relationship_info($rel);
$self->throw_exception(
- "search_related: result source '" . $self->result_source->source_name .
+ "search_related: result source '" . $rsrc->source_name .
"' has no such relationship $rel")
unless $rel_info;
- my ($from,$seen) = $self->_chain_relationship($rel);
+ my $attrs = $self->_chain_relationship($rel);
+
+ my $join_count = $attrs->{seen_join}{$rel};
+
+ my $alias = $self->result_source->storage
+ ->relname_to_table_alias($rel, $join_count);
+
+ # since this is search_related, and we already slid the select window inwards
+ # (the select/as attrs were deleted in the beginning), we need to flip all
+ # left joins to inner, so we get the expected results
+ # read the comment on top of the actual function to see what this does
+ $attrs->{from} = $rsrc->schema->storage->_inner_join_to_node ($attrs->{from}, $alias);
- my $join_count = $seen->{$rel};
- my $alias = ($join_count > 1 ? join('_', $rel, $join_count) : $rel);
#XXX - temp fix for result_class bug. There likely is a more elegant fix -groditi
- my %attrs = %{$self->{attrs}||{}};
- delete @attrs{qw(result_class alias)};
+ delete @{$attrs}{qw(result_class alias)};
my $new_cache;
if (my $cache = $self->get_cache) {
if ($cache->[0] && $cache->[0]->related_resultset($rel)->get_cache) {
- $new_cache = [ map { @{$_->related_resultset($rel)->get_cache} }
+ $new_cache = [ map { @{$_->related_resultset($rel)->get_cache||[]} }
@$cache ];
}
}
- my $rel_source = $self->result_source->related_source($rel);
+ my $rel_source = $rsrc->related_source($rel);
my $new = do {
# to work sanely (e.g. RestrictWithObject wants to be able to add
# extra query restrictions, and these may need to be $alias.)
- my $attrs = $rel_source->resultset_attributes;
- local $attrs->{alias} = $alias;
+ my $rel_attrs = $rel_source->resultset_attributes;
+ local $rel_attrs->{alias} = $alias;
$rel_source->resultset
->search_rs(
undef, {
- %attrs,
- join => undef,
- prefetch => undef,
- select => undef,
- as => undef,
- where => $self->{cond},
- seen_join => $seen,
- from => $from,
+ %$attrs,
+ where => $attrs->{where},
});
};
$new->set_cache($new_cache) if $new_cache;
my $me = $self->current_source_alias;
- return $self->search(
+ return $self->search({
"$me.modified" => $user->id,
- );
+ });
}
=cut
return ($self->{attrs} || {})->{alias} || 'me';
}
+=head2 as_subselect_rs
+
+=over 4
+
+=item Arguments: none
+
+=item Return Value: $resultset
+
+=back
+
+Act as a barrier to SQL symbols. The resultset provided will be made into a
+"virtual view" by including it as a subquery within the from clause. From this
+point on, any joined tables are inaccessible to ->search on the resultset (as if
+it were simply where-filtered without joins). For example:
+
+ my $rs = $schema->resultset('Bar')->search({'x.name' => 'abc'},{ join => 'x' });
+
+ # 'x' now pollutes the query namespace
+
+ # So the following works as expected
+ my $ok_rs = $rs->search({'x.other' => 1});
+
+ # But this doesn't: instead of finding a 'Bar' related to two x rows (abc and
+ # def) we look for one row with contradictory terms and join in another table
+ # (aliased 'x_2') which we never use
+ my $broken_rs = $rs->search({'x.name' => 'def'});
+
+ my $rs2 = $rs->as_subselect_rs;
+
+ # doesn't work - 'x' is no longer accessible in $rs2, having been sealed away
+ my $not_joined_rs = $rs2->search({'x.other' => 1});
+
+ # works as expected: finds a 'table' row related to two x rows (abc and def)
+ my $correctly_joined_rs = $rs2->search({'x.name' => 'def'});
+
+Another example of when one might use this would be to select a subset of
+columns in a group by clause:
+
+ my $rs = $schema->resultset('Bar')->search(undef, {
+ group_by => [qw{ id foo_id baz_id }],
+ })->as_subselect_rs->search(undef, {
+ columns => [qw{ id foo_id }]
+ });
+
+In the above example normally columns would have to be equal to the group by,
+but because we isolated the group by into a subselect the above works.
+
+=cut
+
+sub as_subselect_rs {
+ my $self = shift;
+
+ my $attrs = $self->_resolved_attrs;
+
+ my $fresh_rs = (ref $self)->new (
+ $self->result_source
+ );
+
+ # these pieces will be locked in the subquery
+ delete $fresh_rs->{cond};
+ delete @{$fresh_rs->{attrs}}{qw/where bind/};
+
+ return $fresh_rs->search( {}, {
+ from => [{
+ $attrs->{alias} => $self->as_query,
+ -alias => $attrs->{alias},
+ -rsrc => $self->result_source,
+ }],
+ alias => $attrs->{alias},
+ });
+}
+
# This code is called by search_related, and makes sure there
# is clear separation between the joins before, during, and
# after the relationship. This information is needed later
# with a relation_chain_depth less than the depth of the
# current prefetch is not considered)
#
-# The increments happen in 1/2s to make it easier to correlate the
-# join depth with the join path. An integer means a relationship
-# specified via a search_related, whereas a fraction means an added
-# join/prefetch via attributes
+# The increments happen twice per join. An even number means a
+# relationship specified via a search_related, whereas an odd
+# number indicates a join/prefetch added via attributes
+#
+# Also this code will wrap the current resultset (the one we
+# chain to) in a subselect IFF it contains limiting attributes
sub _chain_relationship {
my ($self, $rel) = @_;
my $source = $self->result_source;
- my $attrs = $self->{attrs};
+ my $attrs = { %{$self->{attrs}||{}} };
- my $from = [ @{
- $attrs->{from}
- ||
- [{
- -source_handle => $source->handle,
- -alias => $attrs->{alias},
- $attrs->{alias} => $source->from,
- }]
- }];
+ # we need to take the prefetch the attrs into account before we
+ # ->_resolve_join as otherwise they get lost - captainL
+ my $join = $self->_merge_joinpref_attr( $attrs->{join}, $attrs->{prefetch} );
- my $seen = { %{$attrs->{seen_join} || {} } };
- my $jpath = ($attrs->{seen_join} && keys %{$attrs->{seen_join}})
- ? $from->[-1][0]{-join_path}
- : [];
+ delete @{$attrs}{qw/join prefetch collapse group_by distinct select as columns +select +as +columns/};
+ my $seen = { %{ (delete $attrs->{seen_join}) || {} } };
- # we need to take the prefetch the attrs into account before we
- # ->_resolve_join as otherwise they get lost - captainL
- my $merged = $self->_merge_attr( $attrs->{join}, $attrs->{prefetch} );
+ my $from;
+ my @force_subq_attrs = qw/offset rows group_by having/;
+
+ if (
+ ($attrs->{from} && ref $attrs->{from} ne 'ARRAY')
+ ||
+ $self->_has_resolved_attr (@force_subq_attrs)
+ ) {
+ # Nuke the prefetch (if any) before the new $rs attrs
+ # are resolved (prefetch is useless - we are wrapping
+ # a subquery anyway).
+ my $rs_copy = $self->search;
+ $rs_copy->{attrs}{join} = $self->_merge_joinpref_attr (
+ $rs_copy->{attrs}{join},
+ delete $rs_copy->{attrs}{prefetch},
+ );
+
+ $from = [{
+ -rsrc => $source,
+ -alias => $attrs->{alias},
+ $attrs->{alias} => $rs_copy->as_query,
+ }];
+ delete @{$attrs}{@force_subq_attrs, qw/where bind/};
+ $seen->{-relation_chain_depth} = 0;
+ }
+ elsif ($attrs->{from}) { #shallow copy suffices
+ $from = [ @{$attrs->{from}} ];
+ }
+ else {
+ $from = [{
+ -rsrc => $source,
+ -alias => $attrs->{alias},
+ $attrs->{alias} => $source->from,
+ }];
+ }
+
+ my $jpath = ($seen->{-relation_chain_depth})
+ ? $from->[-1][0]{-join_path}
+ : [];
my @requested_joins = $source->_resolve_join(
- $merged,
+ $join,
$attrs->{alias},
$seen,
$jpath,
push @$from, @requested_joins;
- $seen->{-relation_chain_depth} += 0.5;
+ $seen->{-relation_chain_depth}++;
# if $self already had a join/prefetch specified on it, the requested
# $rel might very well be already included. What we do in this case
# the join in question so we could tell it *is* the search_related)
my $already_joined;
-
# we consider the last one thus reverse
for my $j (reverse @requested_joins) {
- if ($rel eq $j->[0]{-join_path}[-1]) {
- $j->[0]{-relation_chain_depth} += 0.5;
+ my ($last_j) = keys %{$j->[0]{-join_path}[-1]};
+ if ($rel eq $last_j) {
+ $j->[0]{-relation_chain_depth}++;
$already_joined++;
last;
}
}
-# alternative way to scan the entire chain - not backwards compatible
-# for my $j (reverse @$from) {
-# next unless ref $j eq 'ARRAY';
-# if ($j->[0]{-join_path} && $j->[0]{-join_path}[-1] eq $rel) {
-# $j->[0]{-relation_chain_depth} += 0.5;
-# $already_joined++;
-# last;
-# }
-# }
-
unless ($already_joined) {
push @$from, $source->_resolve_join(
$rel,
);
}
- $seen->{-relation_chain_depth} += 0.5;
+ $seen->{-relation_chain_depth}++;
- return ($from,$seen);
+ return {%$attrs, from => $from, seen_join => $seen};
}
# too many times we have to do $attrs = { %{$self->_resolved_attrs} }
my $source = $self->result_source;
my $alias = $attrs->{alias};
- $attrs->{columns} ||= delete $attrs->{cols} if exists $attrs->{cols};
- my @colbits;
+ # default selection list
+ $attrs->{columns} = [ $source->columns ]
+ unless List::Util::first { exists $attrs->{$_} } qw/columns cols select as/;
- # build columns (as long as select isn't set) into a set of as/select hashes
- unless ( $attrs->{select} ) {
-
- my @cols = ( ref($attrs->{columns}) eq 'ARRAY' )
- ? @{ delete $attrs->{columns}}
- : (
- ( delete $attrs->{columns} )
- ||
- $source->columns
- )
- ;
+ # merge selectors together
+ for (qw/columns select as/) {
+ $attrs->{$_} = $self->_merge_attr($attrs->{$_}, delete $attrs->{"+$_"})
+ if $attrs->{$_} or $attrs->{"+$_"};
+ }
- @colbits = map {
- ( ref($_) eq 'HASH' )
- ? $_
- : {
- (
- /^\Q${alias}.\E(.+)$/
- ? "$1"
- : "$_"
- )
- =>
- (
- /\./
- ? "$_"
- : "${alias}.$_"
- )
+ # disassemble columns
+ my (@sel, @as);
+ 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) {
+ push @sel, $c->{$as};
+ push @as, $as;
}
- } @cols;
- }
-
- # add the additional columns on
- foreach ( 'include_columns', '+columns' ) {
- push @colbits, map {
- ( ref($_) eq 'HASH' )
- ? $_
- : { ( split( /\./, $_ ) )[-1] => ( /\./ ? $_ : "${alias}.$_" ) }
- } ( ref($attrs->{$_}) eq 'ARRAY' ) ? @{ delete $attrs->{$_} } : delete $attrs->{$_} if ( $attrs->{$_} );
- }
-
- # start with initial select items
- if ( $attrs->{select} ) {
- $attrs->{select} =
- ( ref $attrs->{select} eq 'ARRAY' )
- ? [ @{ $attrs->{select} } ]
- : [ $attrs->{select} ];
- $attrs->{as} = (
- $attrs->{as}
- ? (
- ref $attrs->{as} eq 'ARRAY'
- ? [ @{ $attrs->{as} } ]
- : [ $attrs->{as} ]
- )
- : [ map { m/^\Q${alias}.\E(.+)$/ ? $1 : $_ } @{ $attrs->{select} } ]
- );
+ }
+ else {
+ push @sel, $c;
+ push @as, $c;
+ }
+ }
}
- else {
- # otherwise we intialise select & as to empty
- $attrs->{select} = [];
- $attrs->{as} = [];
+ # when trying to weed off duplicates later do not go past this point -
+ # everything added from here on is unbalanced "anyone's guess" stuff
+ my $dedup_stop_idx = $#as;
+
+ push @as, @{ ref $attrs->{as} eq 'ARRAY' ? $attrs->{as} : [ $attrs->{as} ] }
+ if $attrs->{as};
+ push @sel, @{ ref $attrs->{select} eq 'ARRAY' ? $attrs->{select} : [ $attrs->{select} ] }
+ if $attrs->{select};
+
+ # assume all unqualified selectors to apply to the current alias (legacy stuff)
+ $_ = (ref $_ or $_ =~ /\./) ? $_ : "$alias.$_" for @sel;
+
+ # disqualify all $alias.col as-bits (inflate-map mandated)
+ $_ = ($_ =~ /^\Q$alias.\E(.+)$/) ? $1 : $_ for @as;
+
+ # de-duplicate the result (remove *identical* select/as pairs)
+ # and also die on duplicate {as} pointing to different {select}s
+ # not using a c-style for as the condition is prone to shrinkage
+ my $seen;
+ my $i = 0;
+ while ($i <= $dedup_stop_idx) {
+ if ($seen->{"$sel[$i] \x00\x00 $as[$i]"}++) {
+ splice @sel, $i, 1;
+ splice @as, $i, 1;
+ $dedup_stop_idx--;
+ }
+ elsif ($seen->{$as[$i]}++) {
+ $self->throw_exception(
+ "inflate_result() alias '$as[$i]' specified twice with different SQL-side {select}-ors"
+ );
+ }
+ else {
+ $i++;
+ }
}
- # now add colbits to select/as
- push( @{ $attrs->{select} }, map { values( %{$_} ) } @colbits );
- push( @{ $attrs->{as} }, map { keys( %{$_} ) } @colbits );
-
- my $adds;
- if ( $adds = delete $attrs->{'+select'} ) {
- $adds = [$adds] unless ref $adds eq 'ARRAY';
- push(
- @{ $attrs->{select} },
- map { /\./ || ref $_ ? $_ : "${alias}.$_" } @$adds
- );
- }
- if ( $adds = delete $attrs->{'+as'} ) {
- $adds = [$adds] unless ref $adds eq 'ARRAY';
- push( @{ $attrs->{as} }, @$adds );
- }
+ $attrs->{select} = \@sel;
+ $attrs->{as} = \@as;
- $attrs->{from} ||= [ {
- -source_handle => $source->handle,
- -alias => $self->{attrs}{alias},
+ $attrs->{from} ||= [{
+ -rsrc => $source,
+ -alias => $self->{attrs}{alias},
$self->{attrs}{alias} => $source->from,
- } ];
+ }];
if ( $attrs->{join} || $attrs->{prefetch} ) {
$self->throw_exception ('join/prefetch can not be used with a custom {from}')
if ref $attrs->{from} ne 'ARRAY';
- my $join = delete $attrs->{join} || {};
+ my $join = (delete $attrs->{join}) || {};
if ( defined $attrs->{prefetch} ) {
- $join = $self->_merge_attr( $join, $attrs->{prefetch} );
+ $join = $self->_merge_joinpref_attr( $join, $attrs->{prefetch} );
}
$attrs->{from} = # have to copy here to avoid corrupting the original
$join,
$alias,
{ %{ $attrs->{seen_join} || {} } },
- ($attrs->{seen_join} && keys %{$attrs->{seen_join}})
+ ( $attrs->{seen_join} && keys %{$attrs->{seen_join}})
? $attrs->{from}[-1][0]{-join_path}
: []
,
# subquery (since a group_by is present)
if (delete $attrs->{distinct}) {
if ($attrs->{group_by}) {
- carp ("Useless use of distinct on a grouped resultset ('distinct' is ignored when a 'group_by' is present)");
+ carp_unique ("Useless use of distinct on a grouped resultset ('distinct' is ignored when a 'group_by' is present)");
}
else {
- $attrs->{group_by} = [ grep { !ref($_) || (ref($_) ne 'HASH') } @{$attrs->{select}} ];
+ # distinct affects only the main selection part, not what prefetch may
+ # add below.
+ $attrs->{group_by} = $source->storage->_group_over_selection (
+ $attrs->{from},
+ $attrs->{select},
+ $attrs->{order_by},
+ );
}
}
- $attrs->{collapse} ||= {};
- if ( my $prefetch = delete $attrs->{prefetch} ) {
- $prefetch = $self->_merge_attr( {}, $prefetch );
+ # generate selections based on the prefetch helper
+ my $prefetch;
+ $prefetch = $self->_merge_joinpref_attr( {}, delete $attrs->{prefetch} )
+ if defined $attrs->{prefetch};
- my $prefetch_ordering = [];
+ if ($prefetch) {
- my $join_map = $self->_joinpath_aliases ($attrs->{from}, $attrs->{seen_join});
+ $self->throw_exception("Unable to prefetch, resultset contains an unnamed selector $attrs->{_dark_selector}{string}")
+ if $attrs->{_dark_selector};
- my @prefetch =
- $source->_resolve_prefetch( $prefetch, $alias, $join_map, $prefetch_ordering, $attrs->{collapse} );
+ $attrs->{collapse} = 1;
+
+ # this is a separate structure (we don't look in {from} directly)
+ # as the resolver needs to shift things off the lists to work
+ # properly (identical-prefetches on different branches)
+ my $join_map = {};
+ if (ref $attrs->{from} eq 'ARRAY') {
+
+ my $start_depth = $attrs->{seen_join}{-relation_chain_depth} || 0;
+
+ for my $j ( @{$attrs->{from}}[1 .. $#{$attrs->{from}} ] ) {
+ next unless $j->[0]{-alias};
+ next unless $j->[0]{-join_path};
+ next if ($j->[0]{-relation_chain_depth} || 0) < $start_depth;
+
+ my @jpath = map { keys %$_ } @{$j->[0]{-join_path}};
+
+ my $p = $join_map;
+ $p = $p->{$_} ||= {} for @jpath[ ($start_depth/2) .. $#jpath]; #only even depths are actual jpath boundaries
+ push @{$p->{-join_aliases} }, $j->[0]{-alias};
+ }
+ }
+
+ my @prefetch = $source->_resolve_prefetch( $prefetch, $alias, $join_map );
# we need to somehow mark which columns came from prefetch
- $attrs->{_prefetch_select} = [ map { $_->[0] } @prefetch ];
+ if (@prefetch) {
+ my $sel_end = $#{$attrs->{select}};
+ $attrs->{_prefetch_selector_range} = [ $sel_end + 1, $sel_end + @prefetch ];
+ }
- push @{ $attrs->{select} }, @{$attrs->{_prefetch_select}};
+ push @{ $attrs->{select} }, (map { $_->[0] } @prefetch);
push @{ $attrs->{as} }, (map { $_->[1] } @prefetch);
+ }
+
+ $attrs->{_single_object_inflation} = ! List::Util::first { $_ =~ /\./ } @{$attrs->{as}};
+
+ # 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 (! $attrs->{order_by} and $attrs->{collapse}) {
+ # default order for collapsing unless the user asked for something
+ $attrs->{order_by} = [ map { "$alias.$_" } $source->primary_columns ];
+ $attrs->{_ordered_for_collapse} = 1;
+ $attrs->{_order_is_artificial} = 1;
}
# if both page and offset are specified, produce a combined offset
return $self->{_attrs} = $attrs;
}
-sub _joinpath_aliases {
- my ($self, $fromspec, $seen) = @_;
-
- my $paths = {};
- return $paths unless ref $fromspec eq 'ARRAY';
-
- my $cur_depth = $seen->{-relation_chain_depth} || 0;
-
- if (int ($cur_depth) != $cur_depth) {
- $self->throw_exception ("-relation_chain_depth is not an integer, something went horribly wrong ($cur_depth)");
- }
-
- for my $j (@$fromspec) {
-
- next if ref $j ne 'ARRAY';
- next if ($j->[0]{-relation_chain_depth} || 0) < $cur_depth;
-
- my $jpath = $j->[0]{-join_path};
-
- my $p = $paths;
- $p = $p->{$_} ||= {} for @{$jpath}[$cur_depth .. $#$jpath];
- push @{$p->{-join_aliases} }, $j->[0]{-alias};
- }
-
- return $paths;
-}
-
sub _rollout_attr {
my ($self, $attr) = @_;
}
}
-sub _merge_attr {
+sub _merge_joinpref_attr {
my ($self, $orig, $import) = @_;
return $import unless defined($orig);
$position++;
}
my ($import_key) = ( ref $import_element eq 'HASH' ) ? keys %{$import_element} : ($import_element);
+ $import_key = '' if not defined $import_key;
if ($best_candidate->{score} == 0 || exists $seen_keys->{$import_key}) {
push( @{$orig}, $import_element );
$orig->[$best_candidate->{position}] = $import_element;
} elsif (ref $import_element eq 'HASH') {
my ($key) = keys %{$orig_best};
- $orig->[$best_candidate->{position}] = { $key => $self->_merge_attr($orig_best->{$key}, $import_element->{$key}) };
+ $orig->[$best_candidate->{position}] = { $key => $self->_merge_joinpref_attr($orig_best->{$key}, $import_element->{$key}) };
}
}
$seen_keys->{$import_key} = 1; # don't merge the same key twice
return $orig;
}
-sub result_source {
- my $self = shift;
+{
+ my $hm;
- if (@_) {
- $self->_source_handle($_[0]->handle);
- } else {
- $self->_source_handle->resolve;
- }
+ sub _merge_attr {
+ $hm ||= do {
+ require Hash::Merge;
+ my $hm = Hash::Merge->new;
+
+ $hm->specify_behavior({
+ SCALAR => {
+ SCALAR => sub {
+ my ($defl, $defr) = map { defined $_ } (@_[0,1]);
+
+ if ($defl xor $defr) {
+ return [ $defl ? $_[0] : $_[1] ];
+ }
+ elsif (! $defl) {
+ return [];
+ }
+ elsif (__HM_DEDUP and $_[0] eq $_[1]) {
+ return [ $_[0] ];
+ }
+ else {
+ return [$_[0], $_[1]];
+ }
+ },
+ ARRAY => sub {
+ return $_[1] if !defined $_[0];
+ return $_[1] if __HM_DEDUP and List::Util::first { $_ eq $_[0] } @{$_[1]};
+ return [$_[0], @{$_[1]}]
+ },
+ HASH => sub {
+ return [] if !defined $_[0] and !keys %{$_[1]};
+ return [ $_[1] ] if !defined $_[0];
+ return [ $_[0] ] if !keys %{$_[1]};
+ return [$_[0], $_[1]]
+ },
+ },
+ ARRAY => {
+ SCALAR => sub {
+ return $_[0] if !defined $_[1];
+ return $_[0] if __HM_DEDUP and List::Util::first { $_ eq $_[1] } @{$_[0]};
+ return [@{$_[0]}, $_[1]]
+ },
+ ARRAY => sub {
+ my @ret = @{$_[0]} or return $_[1];
+ return [ @ret, @{$_[1]} ] unless __HM_DEDUP;
+ my %idx = map { $_ => 1 } @ret;
+ push @ret, grep { ! defined $idx{$_} } (@{$_[1]});
+ \@ret;
+ },
+ HASH => sub {
+ return [ $_[1] ] if ! @{$_[0]};
+ return $_[0] if !keys %{$_[1]};
+ return $_[0] if __HM_DEDUP and List::Util::first { $_ eq $_[1] } @{$_[0]};
+ return [ @{$_[0]}, $_[1] ];
+ },
+ },
+ HASH => {
+ SCALAR => sub {
+ return [] if !keys %{$_[0]} and !defined $_[1];
+ return [ $_[0] ] if !defined $_[1];
+ return [ $_[1] ] if !keys %{$_[0]};
+ return [$_[0], $_[1]]
+ },
+ ARRAY => sub {
+ return [] if !keys %{$_[0]} and !@{$_[1]};
+ return [ $_[0] ] if !@{$_[1]};
+ return $_[1] if !keys %{$_[0]};
+ return $_[1] if __HM_DEDUP and List::Util::first { $_ eq $_[0] } @{$_[1]};
+ return [ $_[0], @{$_[1]} ];
+ },
+ HASH => sub {
+ return [] if !keys %{$_[0]} and !keys %{$_[1]};
+ return [ $_[0] ] if !keys %{$_[1]};
+ return [ $_[1] ] if !keys %{$_[0]};
+ return [ $_[0] ] if $_[0] eq $_[1];
+ return [ $_[0], $_[1] ];
+ },
+ }
+ } => 'DBIC_RS_ATTR_MERGER');
+ $hm;
+ };
+
+ return $hm->merge ($_[1], $_[2]);
+ }
+}
+
+sub STORABLE_freeze {
+ my ($self, $cloning) = @_;
+ my $to_serialize = { %$self };
+
+ # A cursor in progress can't be serialized (and would make little sense anyway)
+ # the parser can be regenerated (and can't be serialized)
+ delete @{$to_serialize}{qw/cursor _row_parser/};
+
+ # nor is it sensical to store a not-yet-fired-count pager
+ if ($to_serialize->{pager} and ref $to_serialize->{pager}{total_entries} eq 'CODE') {
+ delete $to_serialize->{pager};
+ }
+
+ Storable::nfreeze($to_serialize);
+}
+
+# need this hook for symmetry
+sub STORABLE_thaw {
+ my ($self, $cloning, $serialized) = @_;
+
+ %$self = %{ Storable::thaw($serialized) };
+
+ $self;
}
+
=head2 throw_exception
See L<DBIx::Class::Schema/throw_exception> for details.
sub throw_exception {
my $self=shift;
- if (ref $self && $self->_source_handle->schema) {
- $self->_source_handle->schema->throw_exception(@_)
+ if (ref $self and my $rsrc = $self->result_source) {
+ $rsrc->throw_exception(@_)
}
else {
DBIx::Class::Exception->throw(@_);
C<select> as normal. (You may also use the C<cols> attribute, as in
earlier versions of DBIC.)
+Essentially C<columns> does the same as L</select> and L</as>.
+
+ columns => [ 'foo', { bar => 'baz' } ]
+
+is the same as
+
+ select => [qw/foo baz/],
+ as => [qw/foo bar/]
+
=head2 +columns
=over 4
column (or relationship) accessor, and 'name' is the name of the column
accessor in the related table.
+B<NOTE:> You need to explicitly quote '+columns' when defining the attribute.
+Not doing so causes Perl to incorrectly interpret +columns as a bareword with a
+unary plus operator before it.
+
=head2 include_columns
=over 4
select => [
'name',
{ count => 'employeeid' },
- { sum => 'salary' }
+ { max => { length => 'name' }, -as => 'longest_name' }
]
});
-When you use function/stored procedure names and do not supply an C<as>
-attribute, the column names returned are storage-dependent. E.g. MySQL would
-return a column named C<count(employeeid)> in the above example.
+ # Equivalent SQL
+ SELECT name, COUNT( employeeid ), MAX( LENGTH( name ) ) AS longest_name FROM employee
+
+B<NOTE:> You will almost always need a corresponding L</as> attribute when you
+use L</select>, to instruct DBIx::Class how to store the result of the column.
+Also note that the L</as> attribute has nothing to do with the SQL-side 'AS'
+identifier aliasing. You can however alias a function, so you can use it in
+e.g. an C<ORDER BY> clause. This is done via the C<-as> B<select function
+attribute> supplied as shown in the example above.
+
+B<NOTE:> You need to explicitly quote '+select'/'+as' when defining the attributes.
+Not doing so causes Perl to incorrectly interpret them as a bareword with a
+unary plus operator before it.
=head2 +select
=over 4
Indicates additional columns to be selected from storage. Works the same as
-L</select> but adds columns to the selection.
+L</select> but adds columns to the default selection, instead of specifying
+an explicit list.
=back
=back
-Indicates column names for object inflation. That is, C<as>
-indicates the name that the column can be accessed as via the
-C<get_column> method (or via the object accessor, B<if one already
-exists>). It has nothing to do with the SQL code C<SELECT foo AS bar>.
-
-The C<as> attribute is used in conjunction with C<select>,
-usually when C<select> contains one or more function or stored
-procedure names:
+Indicates column names for object inflation. That is L</as> indicates the
+slot name in which the column value will be stored within the
+L<Row|DBIx::Class::Row> object. The value will then be accessible via this
+identifier by the C<get_column> method (or via the object accessor B<if one
+with the same name already exists>) as shown below. The L</as> attribute has
+B<nothing to do> with the SQL-side C<AS>. See L</select> for details.
$rs = $schema->resultset('Employee')->search(undef, {
select => [
'name',
- { count => 'employeeid' }
+ { count => 'employeeid' },
+ { max => { length => 'name' }, -as => 'longest_name' }
],
- as => ['name', 'employee_count'],
+ as => [qw/
+ name
+ employee_count
+ max_name_length
+ /],
});
- my $employee = $rs->first(); # get the first Employee
-
If the object against which the search is performed already has an accessor
matching a column name specified in C<as>, the value can be retrieved using
the accessor as normal:
You can create your own accessors if required - see
L<DBIx::Class::Manual::Cookbook> for details.
-Please note: This will NOT insert an C<AS employee_count> into the SQL
-statement produced, it is used for internal access only. Thus
-attempting to use the accessor in an C<order_by> clause or similar
-will fail miserably.
-
-To get around this limitation, you can supply literal SQL to your
-C<select> attibute that contains the C<AS alias> text, eg:
-
- select => [\'myfield AS alias']
-
=head2 join
=over 4
Simple prefetches will be joined automatically, so there is no need
for a C<join> attribute in the above search.
-C<prefetch> can be used with the following relationship types: C<belongs_to>,
-C<has_one> (or if you're using C<add_relationship>, any relationship declared
-with an accessor type of 'single' or 'filter'). A more complex example that
-prefetches an artists cds, the tracks on those cds, and the tags associted
-with that artist is given below (assuming many-to-many from artists to tags):
+L</prefetch> can be used with the any of the relationship types and
+multiple prefetches can be specified together. Below is a more complex
+example that prefetches a CD's artist, its liner notes (if present),
+the cover image, the tracks on that cd, and the guests on those
+tracks.
+
+ # Assuming:
+ My::Schema::CD->belongs_to( artist => 'My::Schema::Artist' );
+ My::Schema::CD->might_have( liner_note => 'My::Schema::LinerNotes' );
+ My::Schema::CD->has_one( cover_image => 'My::Schema::Artwork' );
+ My::Schema::CD->has_many( tracks => 'My::Schema::Track' );
+
+ My::Schema::Artist->belongs_to( record_label => 'My::Schema::RecordLabel' );
+
+ My::Schema::Track->has_many( guests => 'My::Schema::Guest' );
+
+
+ my $rs = $schema->resultset('CD')->search(
+ undef,
+ {
+ prefetch => [
+ { artist => 'record_label'}, # belongs_to => belongs_to
+ 'liner_note', # might_have
+ 'cover_image', # has_one
+ { tracks => 'guests' }, # has_many => has_many
+ ]
+ }
+ );
- my $rs = $schema->resultset('Artist')->search(
+This will produce SQL like the following:
+
+ SELECT cd.*, artist.*, record_label.*, liner_note.*, cover_image.*,
+ tracks.*, guests.*
+ FROM cd me
+ JOIN artist artist
+ ON artist.artistid = me.artistid
+ JOIN record_label record_label
+ ON record_label.labelid = artist.labelid
+ LEFT JOIN track tracks
+ ON tracks.cdid = me.cdid
+ LEFT JOIN guest guests
+ ON guests.trackid = track.trackid
+ LEFT JOIN liner_notes liner_note
+ ON liner_note.cdid = me.cdid
+ JOIN cd_artwork cover_image
+ ON cover_image.cdid = me.cdid
+ ORDER BY tracks.cd
+
+Now the C<artist>, C<record_label>, C<liner_note>, C<cover_image>,
+C<tracks>, and C<guests> of the CD will all be available through the
+relationship accessors without the need for additional queries to the
+database.
+
+However, there is one caveat to be observed: it can be dangerous to
+prefetch more than one L<has_many|DBIx::Class::Relationship/has_many>
+relationship on a given level. e.g.:
+
+ my $rs = $schema->resultset('CD')->search(
undef,
{
prefetch => [
- { cds => 'tracks' },
- { artist_tags => 'tags' }
+ 'tracks', # has_many
+ { cd_to_producer => 'producer' }, # has_many => belongs_to (i.e. m2m)
]
}
);
+In fact, C<DBIx::Class> will emit the following warning:
+
+ Prefetching multiple has_many rels tracks and cd_to_producer at top
+ level will explode the number of row objects retrievable via ->next
+ or ->all. Use at your own risk.
+
+The collapser currently can't identify duplicate tuples for multiple
+L<has_many|DBIx::Class::Relationship/has_many> relationships and as a
+result the second L<has_many|DBIx::Class::Relationship/has_many>
+relation could contain redundant objects.
+
+=head3 Using L</prefetch> with L</join>
+
+L</prefetch> implies a L</join> with the equivalent argument, and is
+properly merged with any existing L</join> specification. So the
+following:
+
+ my $rs = $schema->resultset('CD')->search(
+ {'record_label.name' => 'Music Product Ltd.'},
+ {
+ join => {artist => 'record_label'},
+ prefetch => 'artist',
+ }
+ );
+
+... will work, searching on the record label's name, but only
+prefetching the C<artist>.
+
+=head3 Using L</prefetch> with L</select> / L</+select> / L</as> / L</+as>
+
+L</prefetch> implies a L</+select>/L</+as> with the fields of the
+prefetched relations. So given:
+
+ my $rs = $schema->resultset('CD')->search(
+ undef,
+ {
+ select => ['cd.title'],
+ as => ['cd_title'],
+ prefetch => 'artist',
+ }
+ );
+
+The L</select> becomes: C<'cd.title', 'artist.*'> and the L</as>
+becomes: C<'cd_title', 'artist.*'>.
-B<NOTE:> If you specify a C<prefetch> attribute, the C<join> and C<select>
-attributes will be ignored.
+=head3 CAVEATS
-B<CAVEATs>: Prefetch does a lot of deep magic. As such, it may not behave
-exactly as you might expect.
+Prefetch does a lot of deep magic. As such, it may not behave exactly
+as you might expect.
=over 4
identical to creating a non-pages resultset and then calling ->page($page)
on it.
-If L<rows> attribute is not specified it defaults to 10 rows per page.
+If L</rows> attribute is not specified it defaults to 10 rows per page.
When you have a paged resultset, L</count> will only return the number
of rows in the page. To get the total, use the L</pager> and call
=back
-Specifes the maximum number of rows for direct retrieval or the number of
+Specifies the maximum number of rows for direct retrieval or the number of
rows per page if the page attribute or method is used.
=head2 offset
Specifies the (zero-based) row number for the first row to be returned, or the
of the first row of the first page if paging is used.
+=head2 software_limit
+
+=over 4
+
+=item Value: (0 | 1)
+
+=back
+
+When combined with L</rows> and/or L</offset> the generated SQL will not
+include any limit dialect stanzas. Instead the entire result will be selected
+as if no limits were specified, and DBIC will perform the limit locally, by
+artificially advancing and finishing the resulting L</cursor>.
+
+This is the recommended way of performing resultset limiting when no sane RDBMS
+implementation is available (e.g.
+L<Sybase ASE|DBIx::Class::Storage::DBI::Sybase::ASE> using the
+L<Generic Sub Query|DBIx::Class::SQLMaker::LimitDialects/GenericSubQ> hack)
+
=head2 group_by
=over 4
ORDER BY. It is applied to the after the grouping calculations have been
done.
- having => { 'count(employee)' => { '>=', 100 } }
+ having => { 'count_employee' => { '>=', 100 } }
+
+or with an in-place function in which case literal SQL is required:
+
+ having => \[ 'count(employee) >= ?', [ count => 100 ] ]
=head2 distinct
Can be overridden by passing C<< { where => undef } >> as an attribute
to a resultset.
+For more complicated where clauses see L<SQL::Abstract/WHERE CLAUSES>.
+
=back
=head2 cache