=head1 DESCRIPTION
-This module is a subclass of L<SQL::Abstract> and includes a number of
-DBIC-specific workarounds, not yet suitable for inclusion into the
+This module is currently a subclass of L<SQL::Abstract> and includes a number of
+DBIC-specific extensions/workarounds, not suitable for inclusion into the
L<SQL::Abstract> core. It also provides all (and more than) the functionality
of L<SQL::Abstract::Limit>, see L<DBIx::Class::SQLMaker::LimitDialects> for
more info.
-Currently the enhancements to L<SQL::Abstract> are:
+Currently the enhancements over L<SQL::Abstract> are:
=over
=item * C<GROUP BY>/C<HAVING> support (via extensions to the order_by parameter)
+=item * A rudimentary multicolumn IN operator
+
=item * Support of C<...FOR UPDATE> type of select statement modifiers
=back
+=head1 ROADMAP
+
+Some maintainer musings on the current state of SQL generation within DBIC as
+of Oct 2015
+
+=head2 Folding of most (or all) of L<SQL::Abstract (SQLA)|SQL::Abstract> into DBIC
+
+The rise of complex prefetch use, and the general streamlining of result
+parsing within DBIC ended up pushing the actual SQL generation to the forefront
+of many casual performance profiles. While the idea behind SQLA's API is sound,
+the actual implementation is terribly inefficient (once again bumping into the
+ridiculously high overhead of perl function calls).
+
+Given that SQLA has a B<very> distinct life on its own, and is used within an
+order of magnitude more projects compared to DBIC, it is prudent to B<not>
+disturb the current call chains within SQLA itself. Instead in the near future
+an effort will be undertaken to seek a more thorough decoupling of DBIC SQL
+generation from reliance on SQLA, possibly to a point where B<DBIC will no
+longer depend on SQLA> at all.
+
+B<The L<SQL::Abstract> library itself will continue being maintained> although
+it is not likely to gain many extra features, notably dialect support, at least
+not within the base C<SQL::Abstract> namespace.
+
+This work (if undertaken) will take into consideration the following
+constraints:
+
+=over
+
+=item Main API compatibility
+
+The object returned by C<< $schema->storage->sqlmaker >> needs to be able to
+satisfy most of the basic tests found in the current-at-the-time SQLA dist.
+While things like L<case|SQL::Abstract/case> or L<logic|SQL::Abstract/logic>
+or even worse L<convert|SQL::Abstract/convert> will definitely remain
+unsupported, the rest of the tests should pass (within reason).
+
+=item Ability to plug back an SQL::Abstract (or derivative)
+
+During the initial work on L<Data::Query> the test suite of DBIC turned out to
+be an invaluable asset to iron out hard-to-reason-about corner cases. In
+addition the test suite is much more vast and intricate than the tests of SQLA
+itself. This state of affairs is way too valuable to sacrifice in order to gain
+faster SQL generation. Thus a compile-time-ENV-check will be introduced along
+with an extra CI configuration to ensure that DBIC is used with an off-the-CPAN
+SQLA and that it continues to flawlessly run its entire test suite. While this
+will undoubtedly complicate the implementation of the better performing SQL
+generator, it will preserve both the usability of the test suite for external
+projects and will keep L<SQL::Abstract> from regressions in the future.
+
+=back
+
+Aside from these constraints it is becoming more and more practical to simply
+stop using SQLA in day-to-day production deployments of DBIC. The flexibility
+of the internals is simply not worth the performance cost.
+
+=head2 Relationship to L<Data::Query (DQ)|Data::Query>
+
+When initial work on DQ was taking place, the tools in L<::Storage::DBIHacks
+|http://github.com/dbsrgits/dbix-class/blob/current/blead/lib/DBIx/Class/Storage/DBIHacks.pm>
+were only beginning to take shape, and it wasn't clear how important they will
+become further down the road. In fact the I<regexing all over the place> was
+considered an ugly stop-gap, and even a couple of highly entertaining talks
+were given to that effect. As the use-cases of DBIC were progressing, and
+evidence for the importance of supporting arbitrary SQL was mounting, it became
+clearer that DBIC itself would not really benefit in any way from an
+integration with DQ, but on the contrary is likely to lose functionality while
+the corners of the brand new DQ codebase are sanded off.
+
+The current status of DBIC/DQ integration is that the only benefit is for DQ by
+having access to the very extensive "early adopter" test suite, in the same
+manner as early DBIC benefitted tremendously from usurping the Class::DBI test
+suite. As far as the DBIC user-base - there are no immediate practical upsides
+to DQ integration, neither in terms of API nor in performance.
+
+So (as described higher up) the DBIC development effort will in the foreseable
+future ignore the existence of DQ, and will continue optimizing the preexisting
+SQLA-based solution, potentially "organically growing" its own compatible
+implementation. Also (again, as described higher up) the ability to plug a
+separate SQLA-compatible class providing the necessary surface API will remain
+possible, and will be protected at all costs in order to continue providing DQ
+access to the test cases of DBIC.
+
+In the short term, after one more pass over the ResultSet internals is
+undertaken I<real soon now (tm)>, and before the SQLA/SQLMaker integration
+takes place, the preexisting DQ-based branches will be pulled/modified/rebased
+to get up-to-date with the current state of the codebase, which changed very
+substantially since the last migration effort, especially in the SQL
+classification meta-parsing codepath.
+
=cut
use base qw/
__PACKAGE__->mk_group_accessors (simple => qw/quote_char name_sep limit_dialect/);
+sub _quoting_enabled {
+ ( defined $_[0]->{quote_char} and length $_[0]->{quote_char} ) ? 1 : 0
+}
+
# for when I need a normalized l/r pair
sub _quote_chars {
+
+ # in case we are called in the old !!$sm->_quote_chars fashion
+ return () if !wantarray and ( ! defined $_[0]->{quote_char} or ! length $_[0]->{quote_char} );
+
map
{ defined $_ ? $_ : '' }
( ref $_[0]->{quote_char} ? (@{$_[0]->{quote_char}}) : ( ($_[0]->{quote_char}) x 2 ) )
my ($self, $table, $fields, $where, $rs_attrs, $limit, $offset) = @_;
- $fields = $self->_recurse_fields($fields);
+ ($fields, @{$self->{select_bind}}) = $self->_recurse_fields($fields);
if (defined $offset) {
$self->throw_exception('A supplied offset must be a non-negative integer')
- if ( $offset =~ /\D/ or $offset < 0 );
+ if ( $offset =~ /[^0-9]/ or $offset < 0 );
}
$offset ||= 0;
if (defined $limit) {
$self->throw_exception('A supplied limit must be a positive integer')
- if ( $limit =~ /\D/ or $limit <= 0 );
+ if ( $limit =~ /[^0-9]/ or $limit <= 0 );
}
elsif ($offset) {
$limit = $self->__max_int;
if( $limiter = $self->can ('emulate_limit') ) {
carp_unique(
'Support for the legacy emulate_limit() mechanism inherited from '
- . 'SQL::Abstract::Limit has been deprecated, and will be removed when '
- . 'DBIC transitions to Data::Query. If your code uses this type of '
+ . 'SQL::Abstract::Limit has been deprecated, and will be removed at '
+ . 'some future point, as it gets in the way of architectural and/or '
+ . 'performance advances within DBIC. If your code uses this type of '
. 'limit specification please file an RT and provide the source of '
. 'your emulate_limit() implementation, so an acceptable upgrade-path '
. 'can be devised'
# optimized due to hotttnesss
# my ($self, $table, $data, $options) = @_;
- # SQLA will emit INSERT INTO $table ( ) VALUES ( )
+ # FIXME SQLA will emit INSERT INTO $table ( ) VALUES ( )
# which is sadly understood only by MySQL. Change default behavior here,
- # until SQLA2 comes with proper dialect support
+ # until we fold the extra pieces into SQLMaker properly
if (! $_[2] or (ref $_[2] eq 'HASH' and !keys %{$_[2]} ) ) {
my @bind;
my $sql = sprintf(
return $$fields if $ref eq 'SCALAR';
if ($ref eq 'ARRAY') {
- return join(', ', map { $self->_recurse_fields($_) } @$fields);
+ my (@select, @bind);
+ for my $field (@$fields) {
+ my ($select, @new_bind) = $self->_recurse_fields($field);
+ push @select, $select;
+ push @bind, @new_bind;
+ }
+ return (join(', ', @select), @bind);
}
elsif ($ref eq 'HASH') {
my %hash = %$fields; # shallow copy
my $as = delete $hash{-as}; # if supplied
- my ($func, $args, @toomany) = %hash;
+ my ($func, $rhs, @toomany) = %hash;
# there should be only one pair
if (@toomany) {
$self->throw_exception( "Malformed select argument - too many keys in hash: " . join (',', keys %$fields ) );
}
- if (lc ($func) eq 'distinct' && ref $args eq 'ARRAY' && @$args > 1) {
+ if (lc ($func) eq 'distinct' && ref $rhs eq 'ARRAY' && @$rhs > 1) {
$self->throw_exception (
'The select => { distinct => ... } syntax is not supported for multiple columns.'
- .' Instead please use { group_by => [ qw/' . (join ' ', @$args) . '/ ] }'
- .' or { select => [ qw/' . (join ' ', @$args) . '/ ], distinct => 1 }'
+ .' Instead please use { group_by => [ qw/' . (join ' ', @$rhs) . '/ ] }'
+ .' or { select => [ qw/' . (join ' ', @$rhs) . '/ ], distinct => 1 }'
);
}
+ my ($rhs_sql, @rhs_bind) = $self->_recurse_fields($rhs);
my $select = sprintf ('%s( %s )%s',
$self->_sqlcase($func),
- $self->_recurse_fields($args),
+ $rhs_sql,
$as
? sprintf (' %s %s', $self->_sqlcase('as'), $self->_quote ($as) )
: ''
);
- return $select;
+ return ($select, @rhs_bind);
}
- # Is the second check absolutely necessary?
elsif ( $ref eq 'REF' and ref($$fields) eq 'ARRAY' ) {
- push @{$self->{select_bind}}, @{$$fields}[1..$#$$fields];
- return $$fields->[0];
+ return @{$$fields};
}
else {
$self->throw_exception( $ref . qq{ unexpected in _recurse_fields()} );
# things in the SQLA space need to have more info about the $rs they
# create SQL for. The alternative would be to keep expanding the
# signature of _select with more and more positional parameters, which
-# is just gross. All hail SQLA2!
+# is just gross.
+#
+# FIXME - this will have to transition out to a subclass when the effort
+# of folding the SQLA machinery into SQLMaker takes place
sub _parse_rs_attrs {
my ($self, $arg) = @_;
my $sql = '';
+ my @sqlbind;
- if ($arg->{group_by}) {
- # horrible horrible, waiting for refactor
- local $self->{select_bind};
- if (my $g = $self->_recurse_fields($arg->{group_by}) ) {
- $sql .= $self->_sqlcase(' group by ') . $g;
- push @{$self->{group_bind} ||= []}, @{$self->{select_bind}||[]};
- }
+ if (
+ $arg->{group_by}
+ and
+ @sqlbind = $self->_recurse_fields($arg->{group_by})
+ ) {
+ $sql .= $self->_sqlcase(' group by ') . shift @sqlbind;
+ push @{$self->{group_bind}}, @sqlbind;
}
- if (defined $arg->{having}) {
- my ($frag, @bind) = $self->_recurse_where($arg->{having});
- push(@{$self->{having_bind}}, @bind);
- $sql .= $self->_sqlcase(' having ') . $frag;
+ if (
+ $arg->{having}
+ and
+ @sqlbind = $self->_recurse_where($arg->{having})
+ ) {
+ $sql .= $self->_sqlcase(' having ') . shift @sqlbind;
+ push(@{$self->{having_bind}}, @sqlbind);
}
- if (defined $arg->{order_by}) {
+ if ($arg->{order_by}) {
+ # unlike the 2 above, _order_by injects into @{...bind...} for us
$sql .= $self->_order_by ($arg->{order_by});
}
my ($self, $arg) = @_;
# check that we are not called in legacy mode (order_by as 4th argument)
- if (ref $arg eq 'HASH' and not grep { $_ =~ /^-(?:desc|asc)/i } keys %$arg ) {
- return $self->_parse_rs_attrs ($arg);
- }
- else {
- my ($sql, @bind) = $self->next::method($arg);
- push @{$self->{order_bind}}, @bind;
- return $sql;
- }
+ (
+ ref $arg eq 'HASH'
+ and
+ not grep { $_ =~ /^-(?:desc|asc)/i } keys %$arg
+ )
+ ? $self->_parse_rs_attrs ($arg)
+ : do {
+ my ($sql, @bind) = $self->next::method($arg);
+ push @{$self->{order_bind}}, @bind;
+ $sql; # RV
+ }
+ ;
}
sub _split_order_chunk {
# Backcompat for the old days when a plain hashref
# { 't1.col1' => 't2.col2' } meant ON t1.col1 = t2.col2
- # Once things settle we should start warning here so that
- # folks unroll their hacks
if (
ref $cond eq 'HASH'
and
and
! ref ( (values %$cond)[0] )
) {
+ carp_unique(
+ "ResultSet {from} structures with conditions not conforming to the "
+ . "SQL::Abstract syntax are deprecated: you either need to stop abusing "
+ . "{from} altogether, or express the condition properly using the "
+ . "{ -ident => ... } operator"
+ );
$cond = { keys %$cond => { -ident => values %$cond } }
}
elsif ( ref $cond eq 'ARRAY' ) {
return $self->_recurse_where($cond);
}
-# This is hideously ugly, but SQLA does not understand multicol IN expressions
-# FIXME TEMPORARY - DQ should have native syntax for this
-# moved here to raise API questions
+# !!! EXPERIMENTAL API !!! WILL CHANGE !!!
+#
+# This is rather odd, but vanilla SQLA does not have support for multicolumn IN
+# expressions
+# Currently has only one callsite in ResultSet, body moved into this subclass
+# of SQLA to raise API questions like:
+# - how do we convey a list of idents...?
+# - can binds reside on lhs?
#
# !!! EXPERIMENTAL API !!! WILL CHANGE !!!
sub _where_op_multicolumn_in {
\[ join( ' IN ', shift @$$lhs, shift @$$rhs ), @$$lhs, @$$rhs ];
}
-1;
-
-=head1 AUTHORS
+=head1 FURTHER QUESTIONS?
-See L<DBIx::Class/CONTRIBUTORS>.
+Check the list of L<additional DBIC resources|DBIx::Class/GETTING HELP/SUPPORT>.
-=head1 LICENSE
+=head1 COPYRIGHT AND LICENSE
-You may distribute this code under the same terms as Perl itself.
+This module is free software L<copyright|DBIx::Class/COPYRIGHT AND LICENSE>
+by the L<DBIx::Class (DBIC) authors|DBIx::Class/AUTHORS>. You can
+redistribute it and/or modify it under the same terms as the
+L<DBIx::Class library|DBIx::Class/COPYRIGHT AND LICENSE>.
=cut
+
+1;