use List::Util 'first';
use Scalar::Util 'blessed';
-use DBIx::Class::_Util 'UNRESOLVABLE_CONDITION';
+use DBIx::Class::_Util qw(UNRESOLVABLE_CONDITION serialize);
use SQL::Abstract qw(is_plain_value is_literal_value);
use namespace::clean;
# generate sql chunks
my $to_scan = {
restricting => [
- $sql_maker->_recurse_where ($attrs->{where}),
+ ($sql_maker->_recurse_where ($attrs->{where}))[0],
$sql_maker->_parse_rs_attrs ({ having => $attrs->{having} }),
],
grouping => [
sub _collapse_cond {
my ($self, $where, $where_is_anded_array) = @_;
+ my $fin;
+
if (! $where) {
return;
}
push @pairs, -or => $chunk
if @$chunk;
}
- elsif ( ! ref $chunk) {
+ elsif ( ! length ref $chunk) {
push @pairs, $chunk, shift @pieces;
}
else {
or return;
# Consolidate various @conds back into something more compact
- my $fin;
-
for my $c (@conds) {
if (ref $c ne 'HASH') {
push @{$fin->{-and}}, $c;
}
else {
for my $col (sort keys %$c) {
- if (exists $fin->{$col}) {
- my ($l, $r) = ($fin->{$col}, $c->{$col});
- (ref $_ ne 'ARRAY' or !@$_) and $_ = [ -and => $_ ] for ($l, $r);
-
- if (@$l and @$r and $l->[0] eq $r->[0] and $l->[0] eq '-and') {
- $fin->{$col} = [ -and => map { @$_[1..$#$_] } ($l, $r) ];
- }
- else {
- $fin->{$col} = [ -and => $fin->{$col}, $c->{$col} ];
- }
+ # consolidate all -and nodes
+ if ($col =~ /^\-and$/i) {
+ push @{$fin->{-and}},
+ ref $c->{$col} eq 'ARRAY' ? @{$c->{$col}}
+ : ref $c->{$col} eq 'HASH' ? %{$c->{$col}}
+ : { $col => $c->{$col} }
+ ;
+ }
+ elsif ($col =~ /^\-/) {
+ push @{$fin->{-and}}, { $col => $c->{$col} };
+ }
+ elsif (exists $fin->{$col}) {
+ $fin->{$col} = [ -and => map {
+ (ref $_ eq 'ARRAY' and ($_->[0]||'') =~ /^\-and$/i )
+ ? @{$_}[1..$#$_]
+ : $_
+ ;
+ } ($fin->{$col}, $c->{$col}) ];
}
else {
$fin->{$col} = $c->{$col};
}
}
}
-
- if ( ref $fin->{-and} eq 'ARRAY' and @{$fin->{-and}} == 1 ) {
- my $piece = (delete $fin->{-and})->[0];
- if (ref $piece eq 'ARRAY') {
- $fin->{-or} = $fin->{-or} ? [ $piece, $fin->{-or} ] : $piece;
- }
- elsif (! exists $fin->{''}) {
- $fin->{''} = $piece;
- }
- }
-
- return $fin;
}
elsif (ref $where eq 'ARRAY') {
- my @w = @$where;
+ # we are always at top-level here, it is safe to dump empty *standalone* pieces
+ my $fin_idx;
- while ( @w and (
- (ref $w[0] eq 'ARRAY' and ! @{$w[0]} )
- or
- (ref $w[0] eq 'HASH' and ! keys %{$w[0]})
- )) { shift @w };
+ for (my $i = 0; $i <= $#$where; $i++ ) {
- return unless @w;
+ my $logic_mod = lc ( ($where->[$i] =~ /^(\-(?:and|or))$/i)[0] || '' );
- if ( @w == 1 ) {
- return ( ref $w[0] )
- ? $self->_collapse_cond($w[0])
- : { $w[0] => undef }
- ;
- }
- elsif ( @w == 2 and ! ref $w[0]) {
- if ( ( $w[0]||'' ) =~ /^\-and$/i ) {
- return (ref $w[1] eq 'HASH' or ref $w[1] eq 'ARRAY')
- ? $self->_collapse_cond($w[1], (ref $w[1] eq 'ARRAY') )
- : $self->throw_exception("Unsupported top-level op/arg pair: [ $w[0] => $w[1] ]")
- ;
+ if ($logic_mod) {
+ $i++;
+ $self->throw_exception("Unsupported top-level op/arg pair: [ $logic_mod => $where->[$i] ]")
+ unless ref $where->[$i] eq 'HASH' or ref $where->[$i] eq 'ARRAY';
+
+ my $sub_elt = $self->_collapse_cond({ $logic_mod => $where->[$i] })
+ or next;
+
+ $fin_idx->{ "SER_" . serialize $sub_elt } = $sub_elt;
+ }
+ elsif (! length ref $where->[$i] ) {
+ my $sub_elt = $self->_collapse_cond({ @{$where}[$i, $i+1] })
+ or next;
+
+ $fin_idx->{ "COL_$where->[$i]_" . serialize $sub_elt } = $sub_elt;
+ $i++;
}
else {
- return $self->_collapse_cond({ @w });
+ $fin_idx->{ "SER_" . serialize $where->[$i] } = $self->_collapse_cond( $where->[$i] ) || next;
}
}
+
+ if (! $fin_idx) {
+ return;
+ }
+ elsif ( keys %$fin_idx == 1 ) {
+ $fin = (values %$fin_idx)[0];
+ }
else {
- return { -or => \@w };
+ my @or;
+
+ # at this point everything is at most one level deep - unroll if needed
+ for (sort keys %$fin_idx) {
+ if ( ref $fin_idx->{$_} eq 'HASH' and keys %{$fin_idx->{$_}} == 1 ) {
+ my ($l, $r) = %{$fin_idx->{$_}};
+
+ if (
+ ref $r eq 'ARRAY'
+ and
+ (
+ ( @$r == 1 and $l =~ /^\-and$/i )
+ or
+ $l =~ /^\-or$/i
+ )
+ ) {
+ push @or, @$r
+ }
+
+ elsif (
+ ref $r eq 'HASH'
+ and
+ keys %$r == 1
+ and
+ $l =~ /^\-(?:and|or)$/i
+ ) {
+ push @or, %$r;
+ }
+
+ else {
+ push @or, $l, $r;
+ }
+ }
+ else {
+ push @or, $fin_idx->{$_};
+ }
+ }
+
+ $fin->{-or} = \@or;
}
}
else {
# not a hash not an array
- return { '' => $where };
+ $fin = { -and => [ $where ] };
}
- die 'should not get here';
+ # unroll single-element -and's
+ while (
+ $fin->{-and}
+ and
+ @{$fin->{-and}} < 2
+ ) {
+ my $and = delete $fin->{-and};
+ last if @$and == 0;
+
+ # at this point we have @$and == 1
+ if (
+ ref $and->[0] eq 'HASH'
+ and
+ ! grep { exists $fin->{$_} } keys %{$and->[0]}
+ ) {
+ $fin = {
+ %$fin, %{$and->[0]}
+ };
+ }
+ else {
+ $fin->{-and} = $and;
+ last;
+ }
+ }
+
+ # compress same-column conds found in $fin
+ for my $col ( grep { $_ !~ /^\-/ } keys %$fin ) {
+ next unless ref $fin->{$col} eq 'ARRAY' and ($fin->{$col}[0]||'') =~ /^\-and$/i;
+ my $val_bag = { map {
+ (! defined $_ ) ? ( UNDEF => undef )
+ : ( ! length ref $_ or is_plain_value $_ ) ? ( "VAL_$_" => $_ )
+ : ( ( 'SER_' . serialize $_ ) => $_ )
+ } @{$fin->{$col}}[1 .. $#{$fin->{$col}}] };
+
+ if (keys %$val_bag == 1 ) {
+ ($fin->{$col}) = values %$val_bag;
+ }
+ else {
+ $fin->{$col} = [ -and => map { $val_bag->{$_} } sort keys %$val_bag ];
+ }
+ }
+
+ return keys %$fin ? $fin : ();
}
sub _collapse_cond_unroll_pairs {
unshift @$pairs, $lhs => $rhs->[1];
}
else {
- push @conds, { $lhs => $rhs };
+ push @conds, { $lhs => [ @{$rhs}[1..$#$rhs] ] };
}
}
elsif (@$rhs == 1) {
push @conds, { $lhs => $rhs };
}
}
+ # unroll func + { -value => ... }
+ elsif (
+ ref $rhs eq 'HASH'
+ and
+ ( my ($subop) = keys %$rhs ) == 1
+ and
+ length ref ((values %$rhs)[0])
+ and
+ my $vref = is_plain_value( (values %$rhs)[0] )
+ ) {
+ push @conds, { $lhs => { $subop => $$vref } }
+ }
else {
push @conds, { $lhs => $rhs };
}
# is instead used to infer inambiguous values from conditions
# (e.g. the inheritance of resultset conditions on new_result)
#
-my $undef_marker = \ do{ my $x = 'undef' };
sub _extract_fixed_condition_columns {
my ($self, $where, $consider_nulls) = @_;
my $where_hash = $self->_collapse_cond($_[1]);
my $vals;
if (!defined ($v = $where_hash->{$c}) ) {
- $vals->{$undef_marker} = $v if $consider_nulls
+ $vals->{UNDEF} = $v if $consider_nulls
}
elsif (
ref $v eq 'HASH'
) {
if (exists $v->{-value}) {
if (defined $v->{-value}) {
- $vals->{$v->{-value}} = $v->{-value}
+ $vals->{"VAL_$v->{-value}"} = $v->{-value}
}
elsif( $consider_nulls ) {
- $vals->{$undef_marker} = $v->{-value};
+ $vals->{UNDEF} = $v->{-value};
}
}
# do not need to check for plain values - _collapse_cond did it for us
- elsif(ref $v->{'='} and is_literal_value($v->{'='}) ) {
- $vals->{$v->{'='}} = $v->{'='};
+ elsif(length ref $v->{'='} and is_literal_value($v->{'='}) ) {
+ $vals->{ 'SER_' . serialize $v->{'='} } = $v->{'='};
}
}
elsif (
or
is_plain_value ($v)
) {
- $vals->{$v} = $v;
+ $vals->{"VAL_$v"} = $v;
}
elsif (ref $v eq 'ARRAY' and ($v->[0]||'') eq '-and') {
for ( @{$v}[1..$#$v] ) {
my $subval = $self->_extract_fixed_condition_columns({ $c => $_ }, 'consider nulls'); # always fish nulls out on recursion
next unless exists $subval->{$c}; # didn't find anything
- $vals->{defined $subval->{$c} ? $subval->{$c} : $undef_marker} = $subval->{$c};
+ $vals->{
+ ! defined $subval->{$c} ? 'UNDEF'
+ : ( ! length ref $subval->{$c} or is_plain_value $subval->{$c} ) ? "VAL_$subval->{$c}"
+ : ( 'SER_' . serialize $subval->{$c} )
+ } = $subval->{$c};
}
}
if (keys %$vals == 1) {
($res->{$c}) = (values %$vals)
- unless !$consider_nulls and exists $vals->{$undef_marker};
+ unless !$consider_nulls and exists $vals->{UNDEF};
}
elsif (keys %$vals > 1) {
$res->{$c} = UNRESOLVABLE_CONDITION;