my @BUILTIN_SPECIAL_OPS = (
{regex => qr/^ (?: not \s )? between $/ix, handler => sub { die "NOPE" }},
{regex => qr/^ is (?: \s+ not )? $/ix, handler => sub { die "NOPE" }},
+ {regex => qr/^ (?: not \s )? in $/ix, handler => sub { die "NOPE" }},
+ {regex => qr/^ ident $/ix, handler => sub { die "NOPE" }},
+ {regex => qr/^ value $/ix, handler => sub { die "NOPE" }},
);
#======================================================================
$opt{equality_op} = qr/^( \Q$opt{cmp}\E | \= )$/ix;
$opt{inequality_op} = qr/^( != | <> )$/ix;
- $opt{like_op} = qr/^ (is\s+)? r?like $/xi;
- $opt{not_like_op} = qr/^ (is\s+)? not \s+ r?like $/xi;
+ $opt{like_op} = qr/^ (is_)?r?like $/xi;
+ $opt{not_like_op} = qr/^ (is_)?not_r?like $/xi;
# SQL booleans
$opt{sqltrue} ||= '1=1';
# special operators
$opt{special_ops} ||= [];
- # regexes are applied in order, thus push after user-defines
- push @{$opt{special_ops}}, @BUILTIN_SPECIAL_OPS;
-
if ($class->isa('DBIx::Class::SQLMaker')) {
- push @{$opt{special_ops}}, our $DBIC_Compat_Op ||= {
- regex => qr/^(?:ident|value|(?:not\s)?in)$/i, handler => sub { die "NOPE" }
- };
- $opt{is_dbic_sqlmaker} = 1;
+ $opt{warn_once_on_nest} = 1;
+ $opt{disable_old_special_ops} = 1;
}
# unary operators
$opt{expand_unary} = {};
$opt{expand} = {
- -not => '_expand_not',
- -bool => '_expand_bool',
- -and => '_expand_op_andor',
- -or => '_expand_op_andor',
- -nest => '_expand_nest',
- -bind => sub { shift; +{ @_ } },
+ not => '_expand_not',
+ bool => '_expand_bool',
+ and => '_expand_op_andor',
+ or => '_expand_op_andor',
+ nest => '_expand_nest',
+ bind => '_expand_bind',
+ in => '_expand_in',
+ not_in => '_expand_in',
+ row => '_expand_row',
+ between => '_expand_between',
+ not_between => '_expand_between',
+ op => '_expand_op',
+ (map +($_ => '_expand_op_is'), ('is', 'is_not')),
+ ident => '_expand_ident',
+ value => '_expand_value',
+ func => '_expand_func',
};
$opt{expand_op} = {
'between' => '_expand_between',
- 'not between' => '_expand_between',
+ 'not_between' => '_expand_between',
'in' => '_expand_in',
- 'not in' => '_expand_in',
+ 'not_in' => '_expand_in',
'nest' => '_expand_nest',
(map +($_ => '_expand_op_andor'), ('and', 'or')),
- (map +($_ => '_expand_op_is'), ('is', 'is not')),
+ (map +($_ => '_expand_op_is'), ('is', 'is_not')),
+ 'ident' => '_expand_ident',
+ 'value' => '_expand_value',
};
- # placeholder for _expand_unop system
- {
- my %unops = (-ident => '_expand_ident', -value => '_expand_value');
- foreach my $name (keys %unops) {
- $opt{expand}{$name} = $unops{$name};
- my ($op) = $name =~ /^-(.*)$/;
- $opt{expand_op}{$op} = sub {
- my ($self, $op, $arg, $k) = @_;
- return $self->_expand_expr_hashpair_cmp(
- $k, { "-${op}" => $arg }
- );
- };
- }
- }
-
$opt{render} = {
- (map +("-$_", "_render_$_"), qw(op func bind ident literal list)),
+ (map +($_, "_render_$_"), qw(op func bind ident literal row)),
%{$opt{render}||{}}
};
$opt{render_op} = {
- (map +($_ => '_render_op_between'), 'between', 'not between'),
- (map +($_ => '_render_op_in'), 'in', 'not in'),
+ (map +($_ => '_render_op_between'), 'between', 'not_between'),
+ (map +($_ => '_render_op_in'), 'in', 'not_in'),
(map +($_ => '_render_unop_postfix'),
- 'is null', 'is not null', 'asc', 'desc',
+ 'is_null', 'is_not_null', 'asc', 'desc',
),
- (not => '_render_op_not'),
+ (not => '_render_unop_paren'),
(map +($_ => '_render_op_andor'), qw(and or)),
+ ',' => '_render_op_multop',
};
return bless \%opt, $class;
my $data = shift || return;
my $options = shift;
- my $method = $self->_METHOD_FOR_refkind("_insert", $data);
- my ($sql, @bind) = $self->$method($data);
- $sql = join " ", $self->_sqlcase('insert into'), $table, $sql;
+ my $fields;
+
+ my ($f_aqt, $v_aqt) = $self->_expand_insert_values($data);
+
+ my @parts = ([ $self->_sqlcase('insert into').' '.$table ]);
+ push @parts, [ $self->render_aqt($f_aqt) ] if $f_aqt;
+ push @parts, [ $self->_sqlcase('values') ], [ $self->render_aqt($v_aqt) ];
if ($options->{returning}) {
- my ($s, @b) = $self->_insert_returning($options);
- $sql .= $s;
- push @bind, @b;
+ push @parts, [ $self->_insert_returning($options) ];
}
- return wantarray ? ($sql, @bind) : $sql;
+ return $self->join_clauses(' ', @parts);
+}
+
+sub _expand_insert_values {
+ my ($self, $data) = @_;
+ if (is_literal_value($data)) {
+ (undef, $self->expand_expr($data));
+ } else {
+ my ($fields, $values) = (
+ ref($data) eq 'HASH' ?
+ ([ sort keys %$data ], [ @{$data}{sort keys %$data} ])
+ : ([], $data)
+ );
+
+ # no names (arrayref) means can't generate bindtype
+ !($fields) && $self->{bindtype} eq 'columns'
+ && belch "can't do 'columns' bindtype when called with arrayref";
+
+ +(
+ (@$fields
+ ? $self->expand_expr({ -row => $fields }, -ident)
+ : undef
+ ),
+ +{ -row => [
+ map {
+ local our $Cur_Col_Meta = $fields->[$_];
+ $self->_expand_insert_value($values->[$_])
+ } 0..$#$values
+ ] },
+ );
+ }
}
# So that subclasses can override INSERT ... RETURNING separately from
my $f = $options->{returning};
my ($sql, @bind) = $self->render_aqt(
- $self->_expand_maybe_list_expr($f, undef, -ident)
+ $self->_expand_maybe_list_expr($f, -ident)
);
return wantarray
? $self->_sqlcase(' returning ') . $sql
: ($self->_sqlcase(' returning ').$sql, @bind);
}
-sub _insert_HASHREF { # explicit list of fields and then values
- my ($self, $data) = @_;
-
- my @fields = sort keys %$data;
-
- my ($sql, @bind) = $self->_insert_values($data);
-
- # assemble SQL
- $_ = $self->_quote($_) foreach @fields;
- $sql = "( ".join(", ", @fields).") ".$sql;
-
- return ($sql, @bind);
-}
-
-sub _insert_ARRAYREF { # just generate values(?,?) part (no list of fields)
- my ($self, $data) = @_;
-
- # no names (arrayref) so can't generate bindtype
- $self->{bindtype} ne 'columns'
- or belch "can't do 'columns' bindtype when called with arrayref";
-
- my (@values, @all_bind);
- foreach my $value (@$data) {
- my ($values, @bind) = $self->_insert_value(undef, $value);
- push @values, $values;
- push @all_bind, @bind;
- }
- my $sql = $self->_sqlcase('values')." ( ".join(", ", @values)." )";
- return ($sql, @all_bind);
-}
-
-sub _insert_ARRAYREFREF { # literal SQL with bind
- my ($self, $data) = @_;
-
- my ($sql, @bind) = @${$data};
- $self->_assert_bindval_matches_bindtype(@bind);
-
- return ($sql, @bind);
-}
-
-
-sub _insert_SCALARREF { # literal SQL without bind
- my ($self, $data) = @_;
-
- return ($$data);
-}
-
-sub _insert_values {
- my ($self, $data) = @_;
-
- my (@values, @all_bind);
- foreach my $column (sort keys %$data) {
- my ($values, @bind) = $self->_insert_value($column, $data->{$column});
- push @values, $values;
- push @all_bind, @bind;
- }
- my $sql = $self->_sqlcase('values')." ( ".join(", ", @values)." )";
- return ($sql, @all_bind);
-}
-
-sub _insert_value {
- my ($self, $column, $v) = @_;
-
- return $self->render_aqt(
- $self->_expand_insert_value($column, $v)
- );
-}
-
sub _expand_insert_value {
- my ($self, $column, $v) = @_;
+ my ($self, $v) = @_;
+
+ my $k = our $Cur_Col_Meta;
if (ref($v) eq 'ARRAY') {
if ($self->{array_datatypes}) {
- return +{ -bind => [ $column, $v ] };
+ return +{ -bind => [ $k, $v ] };
}
my ($sql, @bind) = @$v;
$self->_assert_bindval_matches_bindtype(@bind);
if (ref($v) eq 'HASH') {
if (grep !/^-/, keys %$v) {
belch "HASH ref as bind value in insert is not supported";
- return +{ -bind => [ $column, $v ] };
+ return +{ -bind => [ $k, $v ] };
}
}
if (!defined($v)) {
- return +{ -bind => [ $column, undef ] };
+ return +{ -bind => [ $k, undef ] };
}
- local our $Cur_Col_Meta = $column;
return $self->expand_expr($v);
}
my ($self, $data) = @_;
return $self->render_aqt(
- $self->_expand_update_set_values($data),
+ $self->_expand_update_set_values(undef, $data),
);
}
sub _expand_update_set_values {
- my ($self, $data) = @_;
+ my ($self, undef, $data) = @_;
$self->_expand_maybe_list_expr( [
map {
my ($k, $set) = @$_;
my ($self, $fields) = @_;
return $fields unless ref($fields);
return $self->render_aqt(
- $self->_expand_maybe_list_expr($fields, undef, '-ident')
+ $self->_expand_maybe_list_expr($fields, '-ident')
);
}
my ($self, $aqt) = @_;
my ($k, $v, @rest) = %$aqt;
die "No" if @rest;
+ die "Not a node type: $k" unless $k =~ s/^-//;
if (my $meth = $self->{render}{$k}) {
- return $self->$meth($v);
+ return $self->$meth($k, $v);
}
die "notreached: $k";
}
sub render_expr {
- my ($self, $expr) = @_;
- $self->render_aqt($self->expand_expr($expr));
+ my ($self, $expr, $default_scalar_to) = @_;
+ my ($sql, @bind) = $self->render_aqt(
+ $self->expand_expr($expr, $default_scalar_to)
+ );
+ return (wantarray ? ($sql, @bind) : $sql);
+}
+
+sub _normalize_op {
+ my ($self, $raw) = @_;
+ s/^-(?=.)//, s/\s+/_/g for my $op = lc $raw;
+ $op;
}
sub _expand_expr {
if (ref($expr) eq 'HASH') {
return undef unless my $kc = keys %$expr;
if ($kc > 1) {
- return $self->_expand_op_andor(-and => $expr);
+ return $self->_expand_op_andor(and => $expr);
}
my ($key, $value) = %$expr;
if ($key =~ /^-/ and $key =~ s/ [_\s]? \d+ $//x ) {
belch 'Use of [and|or|nest]_N modifiers is deprecated and will be removed in SQLA v2.0. '
. "You probably wanted ...-and => [ $key => COND1, $key => COND2 ... ]";
}
- if (my $exp = $self->{expand}{$key}) {
- return $self->$exp($key, $value);
- }
- return $self->_expand_expr_hashpair($key, $value);
+ return $self->_expand_hashpair($key, $value);
}
if (ref($expr) eq 'ARRAY') {
- my $logic = '-'.lc($self->{logic});
- return $self->_expand_op_andor($logic, $expr);
+ return $self->_expand_op_andor(lc($self->{logic}), $expr);
}
if (my $literal = is_literal_value($expr)) {
return +{ -literal => $literal };
}
if (!ref($expr) or Scalar::Util::blessed($expr)) {
- return $self->_expand_expr_scalar($expr);
+ return $self->_expand_scalar($expr);
}
die "notreached";
}
-sub _expand_expr_hashpair {
+sub _expand_hashpair {
my ($self, $k, $v) = @_;
unless (defined($k) and length($k)) {
if (defined($k) and my $literal = is_literal_value($v)) {
puke "Supplying an empty left hand side argument is not supported";
}
if ($k =~ /^-/) {
- return $self->_expand_expr_hashpair_op($k, $v);
+ return $self->_expand_hashpair_op($k, $v);
+ } elsif ($k =~ /^[^\w]/i) {
+ my ($lhs, @rhs) = @$v;
+ return $self->_expand_op(
+ -op, [ $k, $self->expand_expr($lhs, -ident), @rhs ]
+ );
}
- return $self->_expand_expr_hashpair_ident($k, $v);
+ return $self->_expand_hashpair_ident($k, $v);
}
-sub _expand_expr_hashpair_ident {
+sub _expand_hashpair_ident {
my ($self, $k, $v) = @_;
local our $Cur_Col_Meta = $k;
# hash with multiple or no elements is andor
if (ref($v) eq 'HASH' and keys %$v != 1) {
- return $self->_expand_op_andor(-and => $v, $k);
+ return $self->_expand_op_andor(and => $v, $k);
}
# undef needs to be re-sent with cmp to achieve IS/IS NOT NULL
if (is_undef_value($v)) {
- return $self->_expand_expr_hashpair_cmp($k => undef);
+ return $self->_expand_hashpair_cmp($k => undef);
}
# scalars and objects get expanded as whatever requested or values
if (!ref($v) or Scalar::Util::blessed($v)) {
- return $self->_expand_expr_hashpair_scalar($k, $v);
+ return $self->_expand_hashpair_scalar($k, $v);
}
# single key hashref is a hashtriple
if (ref($v) eq 'HASH') {
- return $self->_expand_expr_hashtriple($k, %$v);
+ return $self->_expand_hashtriple($k, %$v);
}
# arrayref needs re-engineering over the elements
$self->_debug("ARRAY($k) means distribute over elements");
my $logic = lc(
$v->[0] =~ /^-(and|or)$/i
- ? shift(@{$v = [ @$v ]})
- : '-'.lc($self->{logic} || 'OR')
+ ? (shift(@{$v = [ @$v ]}), $1)
+ : lc($self->{logic} || 'OR')
);
return $self->_expand_op_andor(
$logic => $v, $k
die "notreached";
}
-sub _expand_expr_scalar {
+sub _expand_scalar {
my ($self, $expr) = @_;
return $self->_expand_expr({ (our $Default_Scalar_To) => $expr });
}
-sub _expand_expr_hashpair_scalar {
+sub _expand_hashpair_scalar {
my ($self, $k, $v) = @_;
- return $self->_expand_expr_hashpair_cmp(
- $k, $self->_expand_expr_scalar($v),
+ return $self->_expand_hashpair_cmp(
+ $k, $self->_expand_scalar($v),
);
}
-sub _expand_expr_hashpair_op {
+sub _expand_hashpair_op {
my ($self, $k, $v) = @_;
- my $op = $k;
- $op =~ s/^-(?=\w)//;
- $self->_assert_pass_injection_guard($op);
+ $self->_assert_pass_injection_guard($k =~ /\A-(.*)\Z/s);
+
+ my $op = $self->_normalize_op($k);
+
+ if (my $exp = $self->{expand}{$op}) {
+ return $self->$exp($op, $v);
+ }
# Ops prefixed with -not_ get converted
- if (my ($rest) = $op =~/^not[_ ](.*)$/) {
+ if (my ($rest) = $op =~/^not_(.*)$/) {
return +{ -op => [
'not',
$self->_expand_expr({ "-${rest}", $v })
- ] };
+ ] };
}
-
{ # Old SQLA compat
+ my $op = join(' ', split '_', $op);
+
# the old special op system requires illegality for top-level use
if (
(our $Expand_Depth) == 1
- and List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}}
+ and (
+ List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}}
+ or (
+ $self->{disable_old_special_ops}
+ and List::Util::first { $op =~ $_->{regex} } @BUILTIN_SPECIAL_OPS
+ )
+ )
) {
puke "Illegal use of top-level '-$op'"
}
# an explicit node type is currently assumed to be expanded (this is almost
# certainly wrong and there should be expansion anyway)
- if ($self->{render}{$k}) {
+ if ($self->{render}{$op}) {
return { $k => $v };
}
- # hashref RHS values get expanded and used as op/func args
-
- if (
- ref($v) eq 'HASH'
- and keys %$v == 1
- and (keys %$v)[0] =~ /^-/
- ) {
- my ($func) = $k =~ /^-(.*)$/;
- { # Old SQLA compat
- if (List::Util::first { $func =~ $_->{regex} } @{$self->{special_ops}}) {
- return +{ -op => [ $func, $self->_expand_expr($v) ] };
- }
- }
- return +{ -func => [ $func, $self->_expand_expr($v) ] };
- }
+ my $type = $self->{unknown_unop_always_func} ? -func : -op;
- # scalars and literals get simply expanded
+ { # Old SQLA compat
- if (!ref($v) or is_literal_value($v)) {
- return +{ -op => [ $op, $self->_expand_expr($v) ] };
+ if (
+ ref($v) eq 'HASH'
+ and keys %$v == 1
+ and (keys %$v)[0] =~ /^-/
+ ) {
+ $type = (
+ (List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}})
+ ? -op
+ : -func
+ )
+ }
}
- die "notreached";
+ return +{ $type => [
+ $op,
+ ($type eq -func and ref($v) eq 'ARRAY')
+ ? map $self->_expand_expr($_), @$v
+ : $self->_expand_expr($v)
+ ] };
}
-sub _expand_expr_hashpair_cmp {
+sub _expand_hashpair_cmp {
my ($self, $k, $v) = @_;
- $self->_expand_expr_hashtriple($k, $self->{cmp}, $v);
+ $self->_expand_hashtriple($k, $self->{cmp}, $v);
}
-sub _expand_expr_hashtriple {
+sub _expand_hashtriple {
my ($self, $k, $vk, $vv) = @_;
my $ik = $self->_expand_ident(-ident => $k);
- my $op = join ' ', split '_', (map lc, $vk =~ /^-?(.*)$/)[0];
+ my $op = $self->_normalize_op($vk);
$self->_assert_pass_injection_guard($op);
- if ($op =~ s/ [_\s]? \d+ $//x ) {
+
+ if ($op =~ s/ _? \d+ $//x ) {
return $self->_expand_expr($k, { $vk, $vv });
}
if (my $x = $self->{expand_op}{$op}) {
return $self->$x($op, $vv, $k);
}
{ # Old SQLA compat
+
+ my $op = join(' ', split '_', $op);
+
if (my $us = List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}}) {
return { -op => [ $op, $ik, $vv ] };
}
if (ref($vv) eq 'ARRAY') {
my @raw = @$vv;
my $logic = (defined($raw[0]) and $raw[0] =~ /^-(and|or)$/i)
- ? shift @raw : '-or';
+ ? (shift(@raw), $1) : 'or';
my @values = map +{ $vk => $_ }, @raw;
if (
$op =~ $self->{inequality_op}
or $op =~ $self->{not_like_op}
) {
- if (lc($logic) eq '-or' and @values > 1) {
- belch "A multi-element arrayref as an argument to the inequality op '${\uc($op)}' "
+ if (lc($logic) eq 'or' and @values > 1) {
+ belch "A multi-element arrayref as an argument to the inequality op '${\uc(join ' ', split '_', $op)}' "
. 'is technically equivalent to an always-true 1=1 (you probably wanted '
. "to say ...{ \$inequality_op => [ -and => \@values ] }... instead)"
;
"unexpected operator '%s' with undef operand",
) ? 'is' : 'is not');
- return $self->_expand_expr_hashpair($k => { $is, undef });
+ return $self->_expand_hashpair($k => { $is, undef });
}
local our $Cur_Col_Meta = $k;
return +{ -op => [
}
sub _dwim_op_to_is {
- my ($self, $op, $empty, $fail) = @_;
+ my ($self, $raw, $empty, $fail) = @_;
+
+ my $op = $self->_normalize_op($raw);
+
if ($op =~ /^not$/i) {
return 0;
}
return 1;
}
if ($op =~ $self->{like_op}) {
- belch(sprintf $empty, uc($op));
+ belch(sprintf $empty, uc(join ' ', split '_', $op));
return 1;
}
if ($op =~ $self->{inequality_op}) {
return 0;
}
if ($op =~ $self->{not_like_op}) {
- belch(sprintf $empty, uc($op));
+ belch(sprintf $empty, uc(join ' ', split '_', $op));
return 0;
}
puke(sprintf $fail, $op);
}
+sub _expand_func {
+ my ($self, undef, $args) = @_;
+ my ($func, @args) = @$args;
+ return { -func => [ $func, map $self->expand_expr($_), @args ] };
+}
+
sub _expand_ident {
- my ($self, $op, $body) = @_;
+ my ($self, undef, $body, $k) = @_;
+ return $self->_expand_hashpair_cmp(
+ $k, { -ident => $body }
+ ) if defined($k);
unless (defined($body) or (ref($body) and ref($body) eq 'ARRAY')) {
- puke "$op requires a single plain scalar argument (a quotable identifier) or an arrayref of identifier parts";
+ puke "-ident requires a single plain scalar argument (a quotable identifier) or an arrayref of identifier parts";
}
my @parts = map split(/\Q${\($self->{name_sep}||'.')}\E/, $_),
ref($body) ? @$body : $body;
}
sub _expand_value {
+ return $_[0]->_expand_hashpair_cmp(
+ $_[3], { -value => $_[2] },
+ ) if defined($_[3]);
+{ -bind => [ our $Cur_Col_Meta, $_[2] ] };
}
+{ -op => [ 'not', $_[0]->_expand_expr($_[2]) ] };
}
+sub _expand_row {
+ my ($self, undef, $args) = @_;
+ +{ -row => [ map $self->expand_expr($_), @$args ] };
+}
+
+sub _expand_op {
+ my ($self, undef, $args) = @_;
+ my ($op, @opargs) = @$args;
+ if (my $exp = $self->{expand_op}{$op}) {
+ return $self->$exp($op, \@opargs);
+ }
+ +{ -op => [ $op, map $self->expand_expr($_), @opargs ] };
+}
+
sub _expand_bool {
my ($self, undef, $v) = @_;
if (ref($v)) {
}
sub _expand_op_andor {
- my ($self, $logic, $v, $k) = @_;
+ my ($self, $logop, $v, $k) = @_;
if (defined $k) {
$v = [ map +{ $k, $_ },
(ref($v) eq 'HASH')
: @$v,
];
}
- my ($logop) = $logic =~ /^-?(.*)$/;
if (ref($v) eq 'HASH') {
return undef unless keys %$v;
return +{ -op => [
sub _expand_op_is {
my ($self, $op, $vv, $k) = @_;
+ ($k, $vv) = @$vv unless defined $k;
puke "$op can only take undef as argument"
if defined($vv)
and not (
and exists($vv->{-value})
and !defined($vv->{-value})
);
- return +{ -op => [ $op.' null', $self->_expand_ident(-ident => $k) ] };
+ return +{ -op => [ $op.'_null', $self->expand_expr($k, -ident) ] };
}
sub _expand_between {
my ($self, $op, $vv, $k) = @_;
- local our $Cur_Col_Meta = $k;
+ $k = shift @{$vv = [ @$vv ]} unless defined $k;
my @rhs = map $self->_expand_expr($_),
ref($vv) eq 'ARRAY' ? @$vv : $vv;
unless (
}
return +{ -op => [
$op,
- $self->_expand_ident(-ident => $k),
+ $self->expand_expr(ref($k) ? $k : { -ident => $k }),
@rhs
] }
}
sub _expand_in {
my ($self, $op, $vv, $k) = @_;
+ $k = shift @{$vv = [ @$vv ]} unless defined $k;
if (my $literal = is_literal_value($vv)) {
my ($sql, @bind) = @$literal;
my $opened_sql = $self->_open_outer_paren($sql);
return +{ -op => [
- $op, $self->_expand_ident(-ident => $k),
- [ { -literal => [ $opened_sql, @bind ] } ]
+ $op, $self->expand_expr($k, -ident),
+ { -literal => [ $opened_sql, @bind ] }
] };
}
my $undef_err =
;
puke("Argument passed to the '${\uc($op)}' operator can not be undefined")
if !defined($vv);
- my @rhs = map $self->_expand_expr($_),
- map { ref($_) ? $_ : { -bind => [ $k, $_ ] } }
+ my @rhs = map $self->expand_expr($_, -value),
map { defined($_) ? $_: puke($undef_err) }
(ref($vv) eq 'ARRAY' ? @$vv : $vv);
return $self->${\($op =~ /^not/ ? 'sqltrue' : 'sqlfalse')} unless @rhs;
return +{ -op => [
$op,
- $self->_expand_ident(-ident => $k),
- \@rhs
+ $self->expand_expr($k, -ident),
+ @rhs
] };
}
sub _expand_nest {
- my ($self, $op, $v) = @_;
+ my ($self, undef, $v) = @_;
# DBIx::Class requires a nest warning to be emitted once but the private
# method it overrode to do so no longer exists
- if ($self->{is_dbic_sqlmaker}) {
+ if ($self->{warn_once_on_nest}) {
unless (our $Nest_Warned) {
belch(
"-nest in search conditions is deprecated, you most probably wanted:\n"
return $self->_expand_expr($v);
}
+sub _expand_bind {
+ my ($self, undef, $bind) = @_;
+ return { -bind => $bind };
+}
+
sub _recurse_where {
my ($self, $where, $logic) = @_;
}
sub _render_ident {
- my ($self, $ident) = @_;
+ my ($self, undef, $ident) = @_;
return $self->_convert($self->_quote($ident));
}
-sub _render_list {
- my ($self, $list) = @_;
- my @parts = grep length($_->[0]), map [ $self->render_aqt($_) ], @$list;
- return join(', ', map $_->[0], @parts), map @{$_}[1..$#$_], @parts;
+sub _render_row {
+ my ($self, undef, $values) = @_;
+ my ($sql, @bind) = $self->_render_op(undef, [ ',', @$values ]);
+ return "($sql)", @bind;
}
sub _render_func {
- my ($self, $rest) = @_;
+ my ($self, undef, $rest) = @_;
my ($func, @args) = @$rest;
+ if (ref($func) eq 'HASH') {
+ $func = $self->render_aqt($func);
+ }
my @arg_sql;
my @bind = map {
my @x = @$_;
}
sub _render_bind {
- my ($self, $bind) = @_;
+ my ($self, undef, $bind) = @_;
return ($self->_convert('?'), $self->_bindtype(@$bind));
}
sub _render_literal {
- my ($self, $literal) = @_;
+ my ($self, undef, $literal) = @_;
$self->_assert_bindval_matches_bindtype(@{$literal}[1..$#$literal]);
return @$literal;
}
sub _render_op {
- my ($self, $v) = @_;
+ my ($self, undef, $v) = @_;
my ($op, @args) = @$v;
if (my $r = $self->{render_op}{$op}) {
return $self->$r($op, \@args);
{ # Old SQLA compat
- my $us = List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}};
- if ($us and @args > 1) {
+ my $op = join(' ', split '_', $op);
+
+ my $ss = List::Util::first { $op =~ $_->{regex} } @{$self->{special_ops}};
+ if ($ss and @args > 1) {
puke "Special op '${op}' requires first value to be identifier"
unless my ($ident) = map $_->{-ident}, grep ref($_) eq 'HASH', $args[0];
my $k = join(($self->{name_sep}||'.'), @$ident);
local our $Expand_Depth = 1;
- return $self->${\($us->{handler})}($k, $op, $args[1]);
+ return $self->${\($ss->{handler})}($k, $op, $args[1]);
}
if (my $us = List::Util::first { $op =~ $_->{regex} } @{$self->{unary_ops}}) {
return $self->${\($us->{handler})}($op, $args[0]);
}
-
+ if ($ss) {
+ return $self->_render_unop_paren($op, \@args);
+ }
}
if (@args == 1) {
return $self->_render_unop_prefix($op, \@args);
};
my ($lhsql, @lhbind) = $self->render_aqt($left);
return (
- join(' ', '(', $lhsql, $self->_sqlcase($op), $rhsql, ')'),
+ join(' ',
+ '(', $lhsql,
+ $self->_sqlcase(join ' ', split '_', $op),
+ $rhsql, ')'
+ ),
@lhbind, @rhbind
);
}
sub _render_op_in {
my ($self, $op, $args) = @_;
- my ($lhs, $rhs) = @$args;
+ my ($lhs, @rhs) = @$args;
my @in_bind;
my @in_sql = map {
my ($sql, @bind) = $self->render_aqt($_);
push @in_bind, @bind;
$sql;
- } @$rhs;
+ } @rhs;
my ($lhsql, @lbind) = $self->render_aqt($lhs);
return (
- $lhsql.' '.$self->_sqlcase($op).' ( '
+ $lhsql.' '.$self->_sqlcase(join ' ', split '_', $op).' ( '
.join(', ', @in_sql)
.' )',
@lbind, @in_bind
my @parts = grep length($_->[0]), map [ $self->render_aqt($_) ], @$args;
return '' unless @parts;
return @{$parts[0]} if @parts == 1;
- my ($sql, @bind) = $self->_render_op_multop($op, $args);
+ my ($sql, @bind) = $self->join_clauses(' '.$self->_sqlcase($op).' ', @parts);
return '( '.$sql.' )', @bind;
}
my @parts = grep length($_->[0]), map [ $self->render_aqt($_) ], @$args;
return '' unless @parts;
return @{$parts[0]} if @parts == 1;
- my ($final_sql) = join(
- ' '.$self->_sqlcase($op).' ',
- map $_->[0], @parts
- );
+ my $join = ($op eq ','
+ ? ', '
+ : ' '.$self->_sqlcase(join ' ', split '_', $op).' '
+ );
+ return $self->join_clauses($join, @parts);
+}
+
+sub join_clauses {
+ my ($self, $join, @parts) = @_;
return (
- $final_sql,
- map @{$_}[1..$#$_], @parts
+ join($join, map $_->[0], @parts),
+ (wantarray ? (map @{$_}[1..$#$_], @parts) : ()),
);
}
-sub _render_op_not {
+
+sub _render_unop_paren {
my ($self, $op, $v) = @_;
my ($sql, @bind) = $self->_render_unop_prefix($op, $v);
return "(${sql})", @bind;
sub _render_unop_prefix {
my ($self, $op, $v) = @_;
my ($expr_sql, @bind) = $self->render_aqt($v->[0]);
- my $op_sql = $self->_sqlcase($op);
+
+ my $op_sql = $self->_sqlcase($op); # join ' ', split '_', $op);
return ("${op_sql} ${expr_sql}", @bind);
}
sub _render_unop_postfix {
my ($self, $op, $v) = @_;
my ($expr_sql, @bind) = $self->render_aqt($v->[0]);
- my $op_sql = $self->_sqlcase($op);
+ my $op_sql = $self->_sqlcase(join ' ', split '_', $op);
return ($expr_sql.' '.$op_sql, @bind);
}
return unless defined($arg) and not (ref($arg) eq 'ARRAY' and !@$arg);
+ return $self->_expand_maybe_list_expr($arg)
+ if ref($arg) eq 'HASH' and ($arg->{-op}||[''])->[0] eq ',';
+
my $expander = sub {
my ($self, $dir, $expr) = @_;
my @to_expand = ref($expr) eq 'ARRAY' ? @$expr : $expr;
),
map $self->expand_expr($_, -ident),
map ref($_) eq 'ARRAY' ? @$_ : $_, @to_expand;
- return (@exp > 1 ? { -list => \@exp } : $exp[0]);
+ return undef unless @exp;
+ return undef if @exp == 1 and not defined($exp[0]);
+ return +{ -op => [ ',', @exp ] };
};
- local @{$self->{expand}}{qw(-asc -desc)} = (($expander) x 2);
+ local @{$self->{expand}}{qw(asc desc)} = (($expander) x 2);
return $self->$expander(undef, $arg);
}
if $expanded->{-ident} or @{$expanded->{-literal}||[]} == 1;
for ($expanded) {
- if (ref() eq 'HASH' and my $l = $_->{-list}) {
- return map $self->_chunkify_order_by($_), @$l;
+ if (ref() eq 'HASH' and $_->{-op} and $_->{-op}[0] eq ',') {
+ my ($comma, @list) = @{$_->{-op}};
+ return map $self->_chunkify_order_by($_), @list;
}
return [ $self->render_aqt($_) ];
}
my $self = shift;
my $from = shift;
($self->render_aqt(
- $self->_expand_maybe_list_expr($from, undef, -ident)
+ $self->_expand_maybe_list_expr($from, -ident)
))[0];
}
#======================================================================
sub _expand_maybe_list_expr {
- my ($self, $expr, $logic, $default) = @_;
- my $e = do {
- if (ref($expr) eq 'ARRAY') {
- return { -list => [
- map $self->expand_expr($_, $default), @$expr
- ] } if @$expr > 1;
- $expr->[0]
- } else {
- $expr
- }
- };
- return $self->expand_expr($e, $default);
+ my ($self, $expr, $default) = @_;
+ return { -op => [
+ ',', map $self->expand_expr($_, $default),
+ @{$expr->{-op}}[1..$#{$expr->{-op}}]
+ ] } if ref($expr) eq 'HASH' and ($expr->{-op}||[''])->[0] eq ',';
+ return +{ -op => [ ',',
+ map $self->expand_expr($_, $default),
+ ref($expr) eq 'ARRAY' ? @$expr : $expr
+ ] };
}
# highly optimized, as it's called way too often