package SQL::Translator::Schema::Constraint; # ---------------------------------------------------------------------- # Copyright (C) 2002-2009 SQLFairy Authors # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License as # published by the Free Software Foundation; version 2. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA # 02111-1307 USA # ------------------------------------------------------------------- =pod =head1 NAME SQL::Translator::Schema::Constraint - SQL::Translator constraint object =head1 SYNOPSIS use SQL::Translator::Schema::Constraint; my $constraint = SQL::Translator::Schema::Constraint->new( name => 'foo', fields => [ id ], type => PRIMARY_KEY, ); =head1 DESCRIPTION C is the constraint object. =head1 METHODS =cut use strict; use SQL::Translator::Schema::Constants; use SQL::Translator::Utils 'parse_list_arg'; use base 'SQL::Translator::Schema::Object'; use vars qw($VERSION $TABLE_COUNT $VIEW_COUNT); $VERSION = '1.59'; my %VALID_CONSTRAINT_TYPE = ( PRIMARY_KEY, 1, UNIQUE, 1, CHECK_C, 1, FOREIGN_KEY, 1, NOT_NULL, 1, ); # ---------------------------------------------------------------------- __PACKAGE__->_attributes( qw/ table name type fields reference_fields reference_table match_type on_delete on_update expression deferrable /); # Override to remove empty arrays from args. # t/14postgres-parser breaks without this. sub init { =pod =head2 new Object constructor. my $schema = SQL::Translator::Schema::Constraint->new( table => $table, # table to which it belongs type => 'foreign_key', # type of table constraint name => 'fk_phone_id', # name of the constraint fields => 'phone_id', # field in the referring table reference_fields => 'phone_id', # referenced field reference_table => 'phone', # referenced table match_type => 'full', # how to match on_delete => 'cascade', # what to do on deletes on_update => '', # what to do on updates ); =cut my $self = shift; foreach ( values %{$_[0]} ) { $_ = undef if ref($_) eq "ARRAY" && ! @$_; } $self->SUPER::init(@_); } # ---------------------------------------------------------------------- sub deferrable { =pod =head2 deferrable Get or set whether the constraint is deferrable. If not defined, then returns "1." The argument is evaluated by Perl for True or False, so the following are eqivalent: $deferrable = $field->deferrable(0); $deferrable = $field->deferrable(''); $deferrable = $field->deferrable('0'); =cut my ( $self, $arg ) = @_; if ( defined $arg ) { $self->{'deferrable'} = $arg ? 1 : 0; } return defined $self->{'deferrable'} ? $self->{'deferrable'} : 1; } # ---------------------------------------------------------------------- sub expression { =pod =head2 expression Gets and set the expression used in a CHECK constraint. my $expression = $constraint->expression('...'); =cut my $self = shift; if ( my $arg = shift ) { # check arg here? $self->{'expression'} = $arg; } return $self->{'expression'} || ''; } # ---------------------------------------------------------------------- sub is_valid { =pod =head2 is_valid Determine whether the constraint is valid or not. my $ok = $constraint->is_valid; =cut my $self = shift; my $type = $self->type or return $self->error('No type'); my $table = $self->table or return $self->error('No table'); my @fields = $self->fields or return $self->error('No fields'); my $table_name = $table->name or return $self->error('No table name'); for my $f ( @fields ) { next if $table->get_field( $f ); return $self->error( "Constraint references non-existent field '$f' ", "in table '$table_name'" ); } my $schema = $table->schema or return $self->error( 'Table ', $table->name, ' has no schema object' ); if ( $type eq FOREIGN_KEY ) { return $self->error('Only one field allowed for foreign key') if scalar @fields > 1; my $ref_table_name = $self->reference_table or return $self->error('No reference table'); my $ref_table = $schema->get_table( $ref_table_name ) or return $self->error("No table named '$ref_table_name' in schema"); my @ref_fields = $self->reference_fields or return; return $self->error('Only one field allowed for foreign key reference') if scalar @ref_fields > 1; for my $ref_field ( @ref_fields ) { next if $ref_table->get_field( $ref_field ); return $self->error( "Constraint from field(s) ", join(', ', map {qq['$table_name.$_']} @fields), " to non-existent field '$ref_table_name.$ref_field'" ); } } elsif ( $type eq CHECK_C ) { return $self->error('No expression for CHECK') unless $self->expression; } return 1; } # ---------------------------------------------------------------------- sub fields { =pod =head2 fields Gets and set the fields the constraint is on. Accepts a string, list or arrayref; returns an array or array reference. Will unique the field names and keep them in order by the first occurrence of a field name. The fields are returned as Field objects if they exist or as plain names if not. (If you just want the names and want to avoid the Field's overload magic use L). Returns undef or an empty list if the constraint has no fields set. $constraint->fields('id'); $constraint->fields('id', 'name'); $constraint->fields( 'id, name' ); $constraint->fields( [ 'id', 'name' ] ); $constraint->fields( qw[ id name ] ); my @fields = $constraint->fields; =cut my $self = shift; my $fields = parse_list_arg( @_ ); if ( @$fields ) { my ( %unique, @unique ); for my $f ( @$fields ) { next if $unique{ $f }; $unique{ $f } = 1; push @unique, $f; } $self->{'fields'} = \@unique; } if ( @{ $self->{'fields'} || [] } ) { # We have to return fields that don't exist on the table as names in # case those fields havn't been created yet. my @ret = map { $self->table->get_field($_) || $_ } @{ $self->{'fields'} }; return wantarray ? @ret : \@ret; } else { return wantarray ? () : undef; } } # ---------------------------------------------------------------------- sub field_names { =head2 field_names Read-only method to return a list or array ref of the field names. Returns undef or an empty list if the constraint has no fields set. Usefull if you want to avoid the overload magic of the Field objects returned by the fields method. my @names = $constraint->field_names; =cut my $self = shift; return wantarray ? @{ $self->{'fields'} || [] } : ($self->{'fields'} || ''); } # ---------------------------------------------------------------------- sub match_type { =pod =head2 match_type Get or set the constraint's match_type. Only valid values are "full" or "partial." my $match_type = $constraint->match_type('FULL'); =cut my ( $self, $arg ) = @_; if ( $arg ) { $arg = lc $arg; return $self->error("Invalid match type: $arg") unless $arg eq 'full' || $arg eq 'partial'; $self->{'match_type'} = $arg; } return $self->{'match_type'} || ''; } # ---------------------------------------------------------------------- sub name { =pod =head2 name Get or set the constraint's name. my $name = $constraint->name('foo'); =cut my $self = shift; my $arg = shift || ''; $self->{'name'} = $arg if $arg; return $self->{'name'} || ''; } # ---------------------------------------------------------------------- sub options { =pod =head2 options Gets or adds to the constraints's options (e.g., "INITIALLY IMMEDIATE"). Returns an array or array reference. $constraint->options('NORELY'); my @options = $constraint->options; =cut my $self = shift; my $options = parse_list_arg( @_ ); push @{ $self->{'options'} }, @$options; if ( ref $self->{'options'} ) { return wantarray ? @{ $self->{'options'} || [] } : $self->{'options'}; } else { return wantarray ? () : []; } } # ---------------------------------------------------------------------- sub on_delete { =pod =head2 on_delete Get or set the constraint's "on delete" action. my $action = $constraint->on_delete('cascade'); =cut my $self = shift; if ( my $arg = shift ) { # validate $arg? $self->{'on_delete'} = $arg; } return $self->{'on_delete'} || ''; } # ---------------------------------------------------------------------- sub on_update { =pod =head2 on_update Get or set the constraint's "on update" action. my $action = $constraint->on_update('no action'); =cut my $self = shift; if ( my $arg = shift ) { # validate $arg? $self->{'on_update'} = $arg; } return $self->{'on_update'} || ''; } # ---------------------------------------------------------------------- sub reference_fields { =pod =head2 reference_fields Gets and set the fields in the referred table. Accepts a string, list or arrayref; returns an array or array reference. $constraint->reference_fields('id'); $constraint->reference_fields('id', 'name'); $constraint->reference_fields( 'id, name' ); $constraint->reference_fields( [ 'id', 'name' ] ); $constraint->reference_fields( qw[ id name ] ); my @reference_fields = $constraint->reference_fields; =cut my $self = shift; my $fields = parse_list_arg( @_ ); if ( @$fields ) { $self->{'reference_fields'} = $fields; } # Nothing set so try and derive it from the other constraint data unless ( ref $self->{'reference_fields'} ) { my $table = $self->table or return $self->error('No table'); my $schema = $table->schema or return $self->error('No schema'); if ( my $ref_table_name = $self->reference_table ) { my $ref_table = $schema->get_table( $ref_table_name ) or return $self->error("Can't find table '$ref_table_name'"); if ( my $constraint = $ref_table->primary_key ) { $self->{'reference_fields'} = [ $constraint->fields ]; } else { $self->error( 'No reference fields defined and cannot find primary key in ', "reference table '$ref_table_name'" ); } } # No ref table so we are not that sort of constraint, hence no ref # fields. So we let the return below return an empty list. } if ( ref $self->{'reference_fields'} ) { return wantarray ? @{ $self->{'reference_fields'} } : $self->{'reference_fields'}; } else { return wantarray ? () : []; } } # ---------------------------------------------------------------------- sub reference_table { =pod =head2 reference_table Get or set the table referred to by the constraint. my $reference_table = $constraint->reference_table('foo'); =cut my $self = shift; $self->{'reference_table'} = shift if @_; return $self->{'reference_table'} || ''; } # ---------------------------------------------------------------------- sub table { =pod =head2 table Get or set the constraint's table object. my $table = $field->table; =cut my $self = shift; if ( my $arg = shift ) { return $self->error('Not a table object') unless UNIVERSAL::isa( $arg, 'SQL::Translator::Schema::Table' ); $self->{'table'} = $arg; } return $self->{'table'}; } # ---------------------------------------------------------------------- sub type { =pod =head2 type Get or set the constraint's type. my $type = $constraint->type( PRIMARY_KEY ); =cut my ( $self, $type ) = @_; if ( $type ) { $type = uc $type; $type =~ s/_/ /g; return $self->error("Invalid constraint type: $type") unless $VALID_CONSTRAINT_TYPE{ $type }; $self->{'type'} = $type; } return $self->{'type'} || ''; } # ---------------------------------------------------------------------- sub equals { =pod =head2 equals Determines if this constraint is the same as another my $isIdentical = $constraint1->equals( $constraint2 ); =cut my $self = shift; my $other = shift; my $case_insensitive = shift; my $ignore_constraint_names = shift; return 0 unless $self->SUPER::equals($other); return 0 unless $self->type eq $other->type; unless ($ignore_constraint_names) { return 0 unless $case_insensitive ? uc($self->name) eq uc($other->name) : $self->name eq $other->name; } return 0 unless $self->deferrable eq $other->deferrable; #return 0 unless $self->is_valid eq $other->is_valid; return 0 unless $case_insensitive ? uc($self->table->name) eq uc($other->table->name) : $self->table->name eq $other->table->name; return 0 unless $self->expression eq $other->expression; # Check fields, regardless of order my %otherFields = (); # create a hash of the other fields foreach my $otherField ($other->fields) { $otherField = uc($otherField) if $case_insensitive; $otherFields{$otherField} = 1; } foreach my $selfField ($self->fields) { # check for self fields in hash $selfField = uc($selfField) if $case_insensitive; return 0 unless $otherFields{$selfField}; delete $otherFields{$selfField}; } # Check all other fields were accounted for return 0 unless keys %otherFields == 0; # Check reference fields, regardless of order my %otherRefFields = (); # create a hash of the other reference fields foreach my $otherRefField ($other->reference_fields) { $otherRefField = uc($otherRefField) if $case_insensitive; $otherRefFields{$otherRefField} = 1; } foreach my $selfRefField ($self->reference_fields) { # check for self reference fields in hash $selfRefField = uc($selfRefField) if $case_insensitive; return 0 unless $otherRefFields{$selfRefField}; delete $otherRefFields{$selfRefField}; } # Check all other reference fields were accounted for return 0 unless keys %otherRefFields == 0; return 0 unless $case_insensitive ? uc($self->reference_table) eq uc($other->reference_table) : $self->reference_table eq $other->reference_table; return 0 unless $self->match_type eq $other->match_type; return 0 unless $self->on_delete eq $other->on_delete; return 0 unless $self->on_update eq $other->on_update; return 0 unless $self->_compare_objects(scalar $self->options, scalar $other->options); return 0 unless $self->_compare_objects(scalar $self->extra, scalar $other->extra); return 1; } # ---------------------------------------------------------------------- sub DESTROY { my $self = shift; undef $self->{'table'}; # destroy cyclical reference } 1; # ---------------------------------------------------------------------- =pod =head1 AUTHOR Ken Youens-Clark Ekclark@cpan.orgE. =cut