/usr/share/perl5/SQL/Statement/Operation.pm is in libsql-statement-perl 1.405-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use warnings;
use vars qw(@ISA);
require Carp;
require SQL::Statement::Term;
our $VERSION = '1.405';
@ISA = qw(SQL::Statement::Term);
=pod
=head1 NAME
SQL::Statement::Operation - base class for all operation terms
=head1 SYNOPSIS
# create an operation with an SQL::Statement object as owner, specifying
# the operation name (for error purposes), the left and the right
# operand
my $term = SQL::Statement::Operation->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation is an abstract base class providing the interface
for all operation terms.
=head1 INHERITANCE
SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 new
Instantiates new operation term.
=head2 value
Return the result of the operation of the term by calling L<operate>
=head2 operate
I<Abstract> method which will do the operation of the term. Must be
overridden by derived classes.
=head2 op
Returns the name of the executed operation.
=head2 left
Returns the left operand (if any).
=head2 right
Returns the right operand (if any).
=head2 DESTROY
Destroys the term and undefines the weak reference to the owner as well
as the stored operation, the left and the right operand.
=cut
sub new
{
my ( $class, $owner, $operation, $leftTerm, $rightTerm ) = @_;
my $self = $class->SUPER::new($owner);
$self->{OP} = $operation;
$self->{LEFT} = $leftTerm;
$self->{RIGHT} = $rightTerm;
return $self;
}
sub op { return $_[0]->{OP}; }
sub left { return $_[0]->{LEFT}; }
sub right { return $_[0]->{RIGHT}; }
sub operate($)
{
Carp::confess(
sprintf(
q{pure virtual function 'operate' called on %s for %s},
ref( $_[0] ) || __PACKAGE__,
$_[0]->{OP}
)
);
}
sub DESTROY
{
my $self = $_[0];
undef $self->{OP};
undef $self->{LEFT};
undef $self->{RIGHT};
$self->SUPER::DESTROY();
}
sub value($) { return $_[0]->operate( $_[1] ); }
package SQL::Statement::Operation::Neg;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::Neg - negate operation
=head1 SYNOPSIS
# create an <not> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and B<no> right operand
my $term = SQL::Statement::Neg->new( $owner, $op, $left, undef );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Neg
=head1 INHERITANCE
SQL::Statement::Operation::Neg
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Return the logical negated value of the left operand.
=cut
sub operate($)
{
return !$_[0]->{LEFT}->value( $_[1] );
}
package SQL::Statement::Operation::And;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::And - and operation
=head1 SYNOPSIS
# create an C<and> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::And->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::And implements the logical C<and> operation
between two terms.
=head1 INHERITANCE
SQL::Statement::Operation::And
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Return the result of the logical C<and> operation for the L<value>s of the
left and right operand.
=cut
sub operate($) { return $_[0]->{LEFT}->value( $_[1] ) && $_[0]->{RIGHT}->value( $_[1] ); }
package SQL::Statement::Operation::Or;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::Or - or operation
=head1 SYNOPSIS
# create an C<or> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Or->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Or implements the logical C<or> operation
between two terms.
=head1 INHERITANCE
SQL::Statement::Operation::Or
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Return the result of the logical C<or> operation for the L<value>s of the
left and right operand.
=cut
sub operate($) { return $_[0]->{LEFT}->value( $_[1] ) || $_[0]->{RIGHT}->value( $_[1] ); }
package SQL::Statement::Operation::Is;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::Is - is operation
=head1 SYNOPSIS
# create an C<is> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Is->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Is supports: C<IS NULL>, C<IS TRUE> and C<IS FALSE>.
The right operand is always evaluated in boolean context in case of C<IS TRUE>
and C<IS FALSE>. C<IS NULL> returns I<true> even if the left term is an empty
string (C<''>).
=head1 INHERITANCE
SQL::Statement::Operation::Is
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Returns true when the left term is null, true or false - based on the
requested right value.
=cut
sub operate($)
{
my $self = $_[0];
my $left = $self->{LEFT}->value( $_[1] );
my $right = $self->{RIGHT}->value( $_[1] );
my $expr;
if ( defined($right) )
{
$expr = defined($left) ? $left && $right : 0; # is true / is false
}
else
{
$expr = !defined($left) || ( $left eq '' ); # FIXME I don't like that '' IS NULL
}
return $expr;
}
package SQL::Statement::Operation::ANSI::Is;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::ANSI::Is - is operation
=head1 SYNOPSIS
# create an C<is> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Is->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::ANSI::Is supports: C<IS NULL>, C<IS TRUE> and C<IS FALSE>.
The right operand is always evaluated in boolean context in case of C<IS TRUE>
and C<IS FALSE>. C<IS NULL> returns I<true> if the right term is not defined,
I<false> otherwise.
=head1 INHERITANCE
SQL::Statement::Operation::Is
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Returns true when the left term is null, true or false - based on the
requested right value.
=cut
sub operate($)
{
my $self = $_[0];
my $left = $self->{LEFT}->value( $_[1] );
my $right = $self->{RIGHT}->value( $_[1] );
my $expr;
if ( defined($right) )
{
$expr = defined($left) ? $left && $right : 0; # is true / is false
}
else
{
$expr = !defined($left);
}
return $expr;
}
package SQL::Statement::Operation::Contains;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
use Scalar::Util qw(looks_like_number);
=pod
=head1 NAME
SQL::Statement::Operation::Contains - in operation
=head1 SYNOPSIS
# create an C<in> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Contains->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Contains expects the right operand is an array
of L<SQL::Statement::Term> instances. It checks whether the left operand
is in the list of the right operands or not like:
$left->value($eval) ~~ map { $_->value($eval) } @{$right}
=head1 INHERITANCE
SQL::Statement::Operation::Contains
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Returns true when the left term is equal to any of the right terms
=cut
sub operate($)
{
my ( $self, $eval ) = @_;
my $left = $self->{LEFT}->value($eval);
my @right = map { $_->value($eval); } @{ $self->{RIGHT} };
my $expr = 0;
foreach my $r (@right)
{
last
if $expr |=
( looks_like_number($left) && looks_like_number($r) ) ? $left == $r : $left eq $r;
}
return $expr;
}
package SQL::Statement::Operation::Between;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
use Scalar::Util qw(looks_like_number);
=pod
=head1 NAME
SQL::Statement::Operation::Between - between operation
=head1 SYNOPSIS
# create an C<between> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Between->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Between expects the right operand is an array
of 2 L<SQL::Statement::Term> instances. It checks whether the left operand
is between the right operands like:
( $left->value($eval) >= $right[0]->value($eval) )
&& ( $left->value($eval) <= $right[1]->value($eval) )
=head1 INHERITANCE
SQL::Statement::Operation::Between
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Returns true when the left term is between both right terms
=cut
sub operate($)
{
my ( $self, $eval ) = @_;
my $left = $self->{LEFT}->value($eval);
my @right = map { $_->value($eval); } @{ $self->{RIGHT} };
my $expr = 0;
if ( looks_like_number($left)
&& looks_like_number( $right[0] )
&& looks_like_number( $right[1] ) )
{
$expr = ( $left >= $right[0] ) && ( $left <= $right[1] );
}
else
{
$expr = ( $left ge $right[0] ) && ( $left le $right[1] );
}
return $expr;
}
package SQL::Statement::Operation::Equality;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
require Carp;
use Scalar::Util qw(looks_like_number);
=pod
=head1 NAME
SQL::Statement::Operation::Equality - abstract base class for comparisons
=head1 SYNOPSIS
# create an C<equality> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Equality->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Equality implements compare operations between
two terms - choosing either numerical comparison or string comparison,
depending whether both operands are numeric or not.
=head1 INHERITANCE
SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Return the result of the comparison.
=head2 numcmp
I<Abstract> method which will do the numeric comparison of both terms. Must be
overridden by derived classes.
=head2 strcmp
I<Abstract> method which will do the string comparison of both terms. Must be
overridden by derived classes.
=cut
sub operate($)
{
my $self = $_[0];
my $left = $self->{LEFT}->value( $_[1] );
my $right = $self->{RIGHT}->value( $_[1] );
return 0 unless ( defined($left) && defined($right) );
return ( looks_like_number($left) && looks_like_number($right) )
? $self->numcmp( $left, $right )
: $self->strcmp( $left, $right );
}
sub numcmp($)
{
Carp::confess(
sprintf(
q{pure virtual function 'numcmp' called on %s for %s},
ref( $_[0] ) || __PACKAGE__,
$_[0]->{OP}
)
);
}
sub strcmp($)
{
Carp::confess(
sprintf(
q{pure virtual function 'strcmp' called on %s for %s},
ref( $_[0] ) || __PACKAGE__,
$_[0]->{OP}
)
);
}
package SQL::Statement::Operation::Equal;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::Equal - implements equal operation
=head1 SYNOPSIS
# create an C<equal> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Equal->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Equal implements compare operations between
two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::Equal
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left == $right>
=head2 strcmp
Return true when C<$left eq $right>
=cut
sub numcmp($$) { return $_[1] == $_[2]; }
sub strcmp($$) { return $_[1] eq $_[2]; }
package SQL::Statement::Operation::NotEqual;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::NotEqual - implements not equal operation
=head1 SYNOPSIS
# create an C<not equal> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::NotEqual->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::NotEqual implements negated compare operations
between two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::NotEqual
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left != $right>
=head2 strcmp
Return true when C<$left ne $right>
=cut
sub numcmp($$) { return $_[1] != $_[2]; }
sub strcmp($$) { return $_[1] ne $_[2]; }
package SQL::Statement::Operation::Lower;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::Lower - implements lower than operation
=head1 SYNOPSIS
# create an C<lower than> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Lower->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Lower implements lower than compare operations
between two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::Lower
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left < $right>
=head2 strcmp
Return true when C<$left lt $right>
=cut
sub numcmp($$) { return $_[1] < $_[2]; }
sub strcmp($$) { return $_[1] lt $_[2]; }
package SQL::Statement::Operation::Greater;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::Greater - implements greater than operation
=head1 SYNOPSIS
# create an C<greater than> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Greater->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Greater implements greater than compare operations
between two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::Greater
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left > $right>
=head2 strcmp
Return true when C<$left gt $right>
=cut
sub numcmp($$) { return $_[1] > $_[2]; }
sub strcmp($$) { return $_[1] gt $_[2]; }
package SQL::Statement::Operation::LowerEqual;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::LowerEqual - implements lower equal operation
=head1 SYNOPSIS
# create an C<lower equal> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::LowerEqual->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::LowerEqual implements lower equal compare operations
between two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::LowerEqual
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left <= $right>
=head2 strcmp
Return true when C<$left le $right>
=cut
sub numcmp($$) { return $_[1] <= $_[2]; }
sub strcmp($$) { return $_[1] le $_[2]; }
package SQL::Statement::Operation::GreaterEqual;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Equality);
=pod
=head1 NAME
SQL::Statement::Operation::GreaterEqual - implements greater equal operation
=head1 SYNOPSIS
# create an C<greater equal> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::GreaterEqual->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::GreaterEqual implements greater equal compare operations
between two numbers and two strings.
=head1 INHERITANCE
SQL::Statement::Operation::GreaterEqual
ISA SQL::Statement::Operation::Equality
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 numcmp
Return true when C<$left >= $right>
=head2 strcmp
Return true when C<$left ge $right>
=cut
sub numcmp($$) { return $_[1] >= $_[2]; }
sub strcmp($$) { return $_[1] ge $_[2]; }
package SQL::Statement::Operation::Regexp;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation);
=pod
=head1 NAME
SQL::Statement::Operation::Regexp - abstract base class for comparisons based on regular expressions
=head1 SYNOPSIS
# create an C<regexp> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Regexp->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Regexp implements the comparisons for the C<LIKE>
operation family.
=head1 INHERITANCE
SQL::Statement::Operation::Regexp
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 operate
Return the result of the comparison.
=head2 right
Returns the regular expression based on the right term. The right term
is expected to be constant - so C<a LIKE b> in not supported.
=head2 regexp
I<Abstract> method which must return a regular expression (C<qr//>) from
the given string. Must be overridden by derived classes.
=cut
sub right($)
{
my $self = $_[0];
my $right = $self->{RIGHT}->value( $_[1] );
unless ( defined( $self->{PATTERNS}->{$right} ) )
{
$self->{PATTERNS}->{$right} = $right;
$self->{PATTERNS}->{$right} =~ s/%/.*/g;
$self->{PATTERNS}->{$right} = $self->regexp( $self->{PATTERNS}->{$right} );
}
return $self->{PATTERNS}->{$right};
}
sub regexp($)
{
Carp::confess(
sprintf(
q{pure virtual function 'regexp' called on %s for %s},
ref( $_[0] ) || __PACKAGE__,
$_[0]->{OP}
)
);
}
sub operate($)
{
my $self = $_[0];
my $left = $self->{LEFT}->value( $_[1] );
my $right = $self->right( $_[1] );
return 0 unless ( defined($left) && defined($right) );
return $left =~ m/^$right$/s;
}
package SQL::Statement::Operation::Like;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Regexp);
=pod
=head1 NAME
SQL::Statement::Operation::Like - implements the like operation
=head1 SYNOPSIS
# create an C<like> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Like->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Like is used to to the comparisons for the C<LIKE>
operation.
=head1 INHERITANCE
SQL::Statement::Operation::Like
ISA SQL::Statement::Operation::Regexp
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 regexp
Returns C<qr/^$right$/s>
=cut
sub regexp($)
{
my $right = $_[1];
return qr/^$right$/s;
}
package SQL::Statement::Operation::Clike;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Regexp);
=pod
=head1 NAME
SQL::Statement::Operation::Clike - implements the clike operation
=head1 SYNOPSIS
# create an C<clike> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::Clike->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::Clike is used to to the comparisons for the C<CLIKE>
operation.
=head1 INHERITANCE
SQL::Statement::Operation::Clike
ISA SQL::Statement::Operation::Regexp
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 regexp
Returns C<qr/^$right$/si>
=cut
sub regexp($)
{
my $right = $_[1];
return qr/^$right$/si;
}
package SQL::Statement::Operation::Rlike;
use vars qw(@ISA);
@ISA = qw(SQL::Statement::Operation::Regexp);
=pod
=head1 NAME
SQL::Statement::Operation::RLike - implements the rlike operation
=head1 SYNOPSIS
# create an C<rlike> operation with an SQL::Statement object as owner,
# specifying the operation name, the left and the right operand
my $term = SQL::Statement::RLike->new( $owner, $op, $left, $right );
# access the result of that operation
$term->value( $eval );
=head1 DESCRIPTION
SQL::Statement::Operation::RLike is used to to the comparisons for the C<RLIKE>
operation.
=head1 INHERITANCE
SQL::Statement::Operation::RLike
ISA SQL::Statement::Operation::Regexp
ISA SQL::Statement::Operation
ISA SQL::Statement::Term
=head1 METHODS
=head2 regexp
Returns C<qr/$right$/s>
=cut
sub regexp($)
{
my $right = $_[1];
return qr/$right$/;
}
=head1 AUTHOR AND COPYRIGHT
Copyright (c) 2009,2010 by Jens Rehsack: rehsackATcpan.org
All rights reserved.
You may distribute this module under the terms of either the GNU
General Public License or the Artistic License, as specified in
the Perl README file.
=cut
1;
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