Code Index:

package DBIx::Class::SQLMaker
EOF

NAME

DBIx::Class::SQLMaker - An SQL::Abstract-based SQL maker class

DESCRIPTION

This module is a subclass of SQL::Abstract and includes a number of DBIC-specific workarounds, not yet suitable for inclusion into the SQL::Abstract core. It also provides all (and more than) the functionality of SQL::Abstract::Limit, see DBIx::Class::SQLMaker::LimitDialects for more info.

Currently the enhancements to SQL::Abstract are:

* Support for JOIN statements (via extended table/from support)
* Support of functions in SELECT lists
* GROUP BY/HAVING support (via extensions to the order_by parameter)
* Support of ...FOR UPDATE type of select statement modifiers
* The -ident operator
* The -value operator

OPERATORS

-ident

Used to explicitly specify an SQL identifier. Takes a plain string as value which is then invariably treated as a column name (and is being properly quoted if quoting has been requested). Most useful for comparison of two columns:

    my %where = (
        priority => { '<', 2 },
        requestor => { -ident => 'submitter' }
    );

which results in:

    $stmt = 'WHERE "priority" < ? AND "requestor" = "submitter"';
    @bind = ('2');

-value

The -value operator signals that the argument to the right is a raw bind value. It will be passed straight to DBI, without invoking any of the SQL::Abstract condition-parsing logic. This allows you to, for example, pass an array as a column value for databases that support array datatypes, e.g.:

    my %where = (
        array => { -value => [1, 2, 3] }
    );

which results in:

    $stmt = 'WHERE array = ?';
    @bind = ([1, 2, 3]);

AUTHORS

See CONTRIBUTORS in DBIx::Class.

LICENSE

You may distribute this code under the same terms as Perl itself.

package DBIx::Class::SQLMaker; use strict; use warnings;

use base qw/ DBIx::Class::SQLMaker::LimitDialects SQL::Abstract DBIx::Class /; use mro 'c3'; use Sub::Name 'subname'; use DBIx::Class::Carp; use DBIx::Class::Exception; use namespace::clean; __PACKAGE__->mk_group_accessors (simple => qw/quote_char name_sep limit_dialect/); # for when I need a normalized l/r pair sub _quote_chars { map { defined $_ ? $_ : '' } ( ref $_[0]->{quote_char} ? (@{$_[0]->{quote_char}}) : ( ($_[0]->{quote_char}) x 2 ) ) ; } # FIXME when we bring in the storage weaklink, check its schema # weaklink and channel through $schema->throw_exception sub throw_exception { DBIx::Class::Exception->throw($_[1]) } BEGIN { # reinstall the belch()/puke() functions of SQL::Abstract with custom versions # that use DBIx::Class::Carp/DBIx::Class::Exception instead of plain Carp no warnings qw/redefine/; *SQL::Abstract::belch = subname 'SQL::Abstract::belch' => sub (@) { my($func) = (caller(1))[3]; carp "[$func] Warning: ", @_; }; *SQL::Abstract::puke = subname 'SQL::Abstract::puke' => sub (@) { my($func) = (caller(1))[3]; __PACKAGE__->throw_exception("[$func] Fatal: " . join ('', @_)); }; # Current SQLA pollutes its namespace - clean for the time being namespace::clean->clean_subroutines(qw/SQL::Abstract carp croak confess/); } # the "oh noes offset/top without limit" constant # limited to 31 bits for sanity (and consistency, # since it may be handed to the like of sprintf %u) # # Also *some* builds of SQLite fail the test # some_column BETWEEN ? AND ?: 1, 4294967295 # with the proper integer bind attrs # # Implemented as a method, since ::Storage::DBI also # refers to it (i.e. for the case of software_limit or # as the value to abuse with MSSQL ordered subqueries) sub __max_int () { 0x7FFFFFFF }; # poor man's de-qualifier sub _quote { $_[0]->next::method( ( $_[0]{_dequalify_idents} and ! ref $_[1] ) ? $_[1] =~ / ([^\.]+) $ /x : $_[1] ); } sub new { my $self = shift->next::method(@_); # use the same coderefs, they are prepared to handle both cases my @extra_dbic_syntax = ( { regex => qr/^ ident $/xi, handler => '_where_op_IDENT' }, { regex => qr/^ value $/xi, handler => '_where_op_VALUE' }, ); push @{$self->{special_ops}}, @extra_dbic_syntax; push @{$self->{unary_ops}}, @extra_dbic_syntax; $self; } sub _where_op_IDENT { my $self = shift; my ($op, $rhs) = splice @_, -2; if (ref $rhs) { $self->throw_exception("-$op takes a single scalar argument (a quotable identifier)"); } # in case we are called as a top level special op (no '=') my $lhs = shift; $_ = $self->_convert($self->_quote($_)) for ($lhs, $rhs); return $lhs ? "$lhs = $rhs" : $rhs ; } sub _where_op_VALUE { my $self = shift; my ($op, $rhs) = splice @_, -2; # in case we are called as a top level special op (no '=') my $lhs = shift; my @bind = [ ($lhs || $self->{_nested_func_lhs} || $self->throw_exception("Unable to find bindtype for -value $rhs") ), $rhs ]; return $lhs ? ( $self->_convert($self->_quote($lhs)) . ' = ' . $self->_convert('?'), @bind ) : ( $self->_convert('?'), @bind, ) ; } sub _where_op_NEST { carp_unique ("-nest in search conditions is deprecated, you most probably wanted:\n" .q|{..., -and => [ \%cond0, \@cond1, \'cond2', \[ 'cond3', [ col => bind ] ], etc. ], ... }| ); shift->next::method(@_); } # Handle limit-dialect selection sub select { my ($self, $table, $fields, $where, $rs_attrs, $limit, $offset) = @_; $fields = $self->_recurse_fields($fields); if (defined $offset) { $self->throw_exception('A supplied offset must be a non-negative integer') if ( $offset =~ /\D/ or $offset < 0 ); } $offset ||= 0; if (defined $limit) { $self->throw_exception('A supplied limit must be a positive integer') if ( $limit =~ /\D/ or $limit <= 0 ); } elsif ($offset) { $limit = $self->__max_int; } my ($sql, @bind); if ($limit) { # this is legacy code-flow from SQLA::Limit, it is not set in stone ($sql, @bind) = $self->next::method ($table, $fields, $where); my $limiter = $self->can ('emulate_limit') # also backcompat hook from SQLA::Limit || do { my $dialect = $self->limit_dialect or $self->throw_exception( "Unable to generate SQL-limit - no limit dialect specified on $self, and no emulate_limit method found" ); $self->can ("_$dialect") or $self->throw_exception(__PACKAGE__ . " does not implement the requested dialect '$dialect'"); } ; $sql = $self->$limiter ($sql, $rs_attrs, $limit, $offset); } else { ($sql, @bind) = $self->next::method ($table, $fields, $where, $rs_attrs); } push @{$self->{where_bind}}, @bind; # this *must* be called, otherwise extra binds will remain in the sql-maker my @all_bind = $self->_assemble_binds; $sql .= $self->_lock_select ($rs_attrs->{for}) if $rs_attrs->{for}; return wantarray ? ($sql, @all_bind) : $sql; } sub _assemble_binds { my $self = shift; return map { @{ (delete $self->{"${_}_bind"}) || [] } } (qw/select from where group having order limit/); } my $for_syntax = { update => 'FOR UPDATE', shared => 'FOR SHARE', }; sub _lock_select { my ($self, $type) = @_; my $sql = $for_syntax->{$type} || $self->throw_exception( "Unknown SELECT .. FOR type '$type' requested" ); return " $sql"; } # Handle default inserts sub insert { # optimized due to hotttnesss # my ($self, $table, $data, $options) = @_; # 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 if (! $_[2] or (ref $_[2] eq 'HASH' and !keys %{$_[2]} ) ) { my @bind; my $sql = sprintf( 'INSERT INTO %s DEFAULT VALUES', $_[0]->_quote($_[1]) ); if ( ($_[3]||{})->{returning} ) { my $s; ($s, @bind) = $_[0]->_insert_returning ($_[3]); $sql .= $s; } return ($sql, @bind); } next::method(@_); } sub _recurse_fields { my ($self, $fields) = @_; my $ref = ref $fields; return $self->_quote($fields) unless $ref; return $$fields if $ref eq 'SCALAR'; if ($ref eq 'ARRAY') { return join(', ', map { $self->_recurse_fields($_) } @$fields); } elsif ($ref eq 'HASH') { my %hash = %$fields; # shallow copy my $as = delete $hash{-as}; # if supplied my ($func, $args, @toomany) = %hash; # there should be only one pair if (@toomany) { $self->throw_exception( "Malformed select argument - too many keys in hash: " . join (',', keys %$fields ) ); } if (lc ($func) eq 'distinct' && ref $args eq 'ARRAY' && @$args > 1) { $self->throw_exception ( 'The select => { distinct => ... } syntax is not supported for multiple columns.' .' Instead please use { group_by => [ qw/' . (join ' ', @$args) . '/ ] }' .' or { select => [ qw/' . (join ' ', @$args) . '/ ], distinct => 1 }' ); } my $select = sprintf ('%s( %s )%s', $self->_sqlcase($func), $self->_recurse_fields($args), $as ? sprintf (' %s %s', $self->_sqlcase('as'), $self->_quote ($as) ) : '' ); return $select; } # Is the second check absolutely necessary? elsif ( $ref eq 'REF' and ref($$fields) eq 'ARRAY' ) { push @{$self->{select_bind}}, @{$$fields}[1..$#$$fields]; return $$fields->[0]; } else { $self->throw_exception( $ref . qq{ unexpected in _recurse_fields()} ); } } # this used to be a part of _order_by but is broken out for clarity. # What we have been doing forever is hijacking the $order arg of # SQLA::select to pass in arbitrary pieces of data (first the group_by, # then pretty much the entire resultset attr-hash, as more and more # things in the SQLA space need to have mopre 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! sub _parse_rs_attrs { my ($self, $arg) = @_; my $sql = ''; if ($arg->{group_by}) { # horible 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 (defined $arg->{having}) { my ($frag, @bind) = $self->_recurse_where($arg->{having}); push(@{$self->{having_bind}}, @bind); $sql .= $self->_sqlcase(' having ') . $frag; } if (defined $arg->{order_by}) { $sql .= $self->_order_by ($arg->{order_by}); } return $sql; } sub _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; } } sub _table { # optimized due to hotttnesss # my ($self, $from) = @_; if (my $ref = ref $_[1] ) { if ($ref eq 'ARRAY') { return $_[0]->_recurse_from(@{$_[1]}); } elsif ($ref eq 'HASH') { return $_[0]->_recurse_from($_[1]); } elsif ($ref eq 'REF' && ref ${$_[1]} eq 'ARRAY') { my ($sql, @bind) = @{ ${$_[1]} }; push @{$_[0]->{from_bind}}, @bind; return $sql } } return $_[0]->next::method ($_[1]); } sub _generate_join_clause { my ($self, $join_type) = @_; $join_type = $self->{_default_jointype} if ! defined $join_type; return sprintf ('%s JOIN ', $join_type ? $self->_sqlcase($join_type) : '' ); } sub _recurse_from { my $self = shift; return join (' ', $self->_gen_from_blocks(@_) ); } sub _gen_from_blocks { my ($self, $from, @joins) = @_; my @fchunks = $self->_from_chunk_to_sql($from); for (@joins) { my ($to, $on) = @$_; # check whether a join type exists my $to_jt = ref($to) eq 'ARRAY' ? $to->[0] : $to; my $join_type; if (ref($to_jt) eq 'HASH' and defined($to_jt->{-join_type})) { $join_type = $to_jt->{-join_type}; $join_type =~ s/^\s+ | \s+$//xg; } my @j = $self->_generate_join_clause( $join_type ); if (ref $to eq 'ARRAY') { push(@j, '(', $self->_recurse_from(@$to), ')'); } else { push(@j, $self->_from_chunk_to_sql($to)); } my ($sql, @bind) = $self->_join_condition($on); push(@j, ' ON ', $sql); push @{$self->{from_bind}}, @bind; push @fchunks, join '', @j; } return @fchunks; } sub _from_chunk_to_sql { my ($self, $fromspec) = @_; return join (' ', $self->_SWITCH_refkind($fromspec, { SCALARREF => sub { $$fromspec; }, ARRAYREFREF => sub { push @{$self->{from_bind}}, @{$$fromspec}[1..$#$$fromspec]; $$fromspec->[0]; }, HASHREF => sub { my ($as, $table, $toomuch) = ( map { $_ => $fromspec->{$_} } ( grep { $_ !~ /^\-/ } keys %$fromspec ) ); $self->throw_exception( "Only one table/as pair expected in from-spec but an exra '$toomuch' key present" ) if defined $toomuch; ($self->_from_chunk_to_sql($table), $self->_quote($as) ); }, SCALAR => sub { $self->_quote($fromspec); }, })); } sub _join_condition { my ($self, $cond) = @_; # 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 $cond eq 'HASH' and keys %$cond == 1 and (keys %$cond)[0] =~ /\./ and ! ref ( (values %$cond)[0] ) ) { $cond = { keys %$cond => { -ident => values %$cond } } } elsif ( ref $cond eq 'ARRAY' ) { # do our own ORing so that the hashref-shim above is invoked my @parts; my @binds; foreach my $c (@$cond) { my ($sql, @bind) = $self->_join_condition($c); push @binds, @bind; push @parts, $sql; } return join(' OR ', @parts), @binds; } return $self->_recurse_where($cond); } 1;