package SQL::Translator::Schema::Field; # ---------------------------------------------------------------------- # $Id: Field.pm,v 1.27 2007-10-24 10:55:44 schiffbruechige Exp $ # ---------------------------------------------------------------------- # Copyright (C) 2002-4 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::Field - SQL::Translator field object =head1 SYNOPSIS use SQL::Translator::Schema::Field; my $field = SQL::Translator::Schema::Field->new( name => 'foo', table => $table, ); =head1 DESCRIPTION C is the field object. =head1 METHODS =cut use strict; use SQL::Translator::Schema::Constants; use SQL::Translator::Utils 'parse_list_arg'; use base 'SQL::Translator::Schema::Object'; use vars qw($VERSION $TABLE_COUNT $VIEW_COUNT); $VERSION = sprintf "%d.%02d", q$Revision: 1.27 $ =~ /(\d+)\.(\d+)/; # Stringify to our name, being careful not to pass any args through so we don't # accidentally set it to undef. We also have to tweak bool so the object is # still true when it doesn't have a name (which shouldn't happen!). use overload '""' => sub { shift->name }, 'bool' => sub { $_[0]->name || $_[0] }, fallback => 1, ; use DBI qw(:sql_types); # Mapping from string to sql contstant our %type_mapping = ( integer => SQL_INTEGER, int => SQL_INTEGER, smallint => SQL_SMALLINT, bigint => 9999, # DBI doesn't export a constatn for this. Le suck double => SQL_DOUBLE, decimal => SQL_DECIMAL, numeric => SQL_NUMERIC, dec => SQL_DECIMAL, bit => SQL_BIT, date => SQL_DATE, datetime => SQL_DATETIME, timestamp => SQL_TIMESTAMP, time => SQL_TIME, char => SQL_CHAR, varchar => SQL_VARCHAR, binary => SQL_BINARY, varbinary => SQL_VARBINARY, tinyblob => SQL_BLOB, blob => SQL_BLOB, text => SQL_LONGVARCHAR ); # ---------------------------------------------------------------------- __PACKAGE__->_attributes( qw/ table name data_type size is_primary_key is_nullable is_auto_increment default_value comments is_foreign_key is_unique order sql_data_type /); =pod =head2 new Object constructor. my $field = SQL::Translator::Schema::Field->new( name => 'foo', table => $table, ); =cut # ---------------------------------------------------------------------- sub comments { =pod =head2 comments Get or set the comments on a field. May be called several times to set and it will accumulate the comments. Called in an array context, returns each comment individually; called in a scalar context, returns all the comments joined on newlines. $field->comments('foo'); $field->comments('bar'); print join( ', ', $field->comments ); # prints "foo, bar" =cut my $self = shift; for my $arg ( @_ ) { $arg = $arg->[0] if ref $arg; push @{ $self->{'comments'} }, $arg if $arg; } if ( @{ $self->{'comments'} || [] } ) { return wantarray ? @{ $self->{'comments'} || [] } : join( "\n", @{ $self->{'comments'} || [] } ); } else { return wantarray ? () : ''; } } # ---------------------------------------------------------------------- sub data_type { =pod =head2 data_type Get or set the field's data type. my $data_type = $field->data_type('integer'); =cut my $self = shift; if (@_) { $self->{'data_type'} = $_[0]; $self->{'sql_data_type'} = $type_mapping{lc $_[0]} || SQL_UNKNOWN_TYPE unless exists $self->{sql_data_type}; } return $self->{'data_type'} || ''; } sub sql_data_type { =head2 sql_data_type Constant from DBI package representing this data type. See L for more details. =cut my $self = shift; $self->{sql_data_type} = shift if @_; return $self->{sql_data_type} || 0; } # ---------------------------------------------------------------------- sub default_value { =pod =head2 default_value Get or set the field's default value. Will return undef if not defined and could return the empty string (it's a valid default value), so don't assume an error like other methods. my $default = $field->default_value('foo'); =cut my ( $self, $arg ) = @_; $self->{'default_value'} = $arg if defined $arg; return $self->{'default_value'}; } # ---------------------------------------------------------------------- =pod =head2 extra Get or set the field's "extra" attibutes (e.g., "ZEROFILL" for MySQL). Accepts a hash(ref) of name/value pairs to store; returns a hash. $field->extra( qualifier => 'ZEROFILL' ); my %extra = $field->extra; =cut # ---------------------------------------------------------------------- sub foreign_key_reference { =pod =head2 foreign_key_reference Get or set the field's foreign key reference; my $constraint = $field->foreign_key_reference( $constraint ); =cut my $self = shift; if ( my $arg = shift ) { my $class = 'SQL::Translator::Schema::Constraint'; if ( UNIVERSAL::isa( $arg, $class ) ) { return $self->error( 'Foreign key reference for ', $self->name, 'already defined' ) if $self->{'foreign_key_reference'}; $self->{'foreign_key_reference'} = $arg; } else { return $self->error( "Argument to foreign_key_reference is not an $class object" ); } } return $self->{'foreign_key_reference'}; } # ---------------------------------------------------------------------- sub is_auto_increment { =pod =head2 is_auto_increment Get or set the field's C attribute. my $is_auto = $field->is_auto_increment(1); =cut my ( $self, $arg ) = @_; if ( defined $arg ) { $self->{'is_auto_increment'} = $arg ? 1 : 0; } unless ( defined $self->{'is_auto_increment'} ) { if ( my $table = $self->table ) { if ( my $schema = $table->schema ) { if ( $schema->database eq 'PostgreSQL' && $self->data_type eq 'serial' ) { $self->{'is_auto_increment'} = 1; } } } } return $self->{'is_auto_increment'} || 0; } # ---------------------------------------------------------------------- sub is_foreign_key { =pod =head2 is_foreign_key Returns whether or not the field is a foreign key. my $is_fk = $field->is_foreign_key; =cut my ( $self, $arg ) = @_; unless ( defined $self->{'is_foreign_key'} ) { if ( my $table = $self->table ) { for my $c ( $table->get_constraints ) { if ( $c->type eq FOREIGN_KEY ) { my %fields = map { $_, 1 } $c->fields; if ( $fields{ $self->name } ) { $self->{'is_foreign_key'} = 1; $self->foreign_key_reference( $c ); last; } } } } } return $self->{'is_foreign_key'} || 0; } # ---------------------------------------------------------------------- sub is_nullable { =pod =head2 is_nullable Get or set whether the field can be null. If not defined, then returns "1" (assumes the field can be null). The argument is evaluated by Perl for True or False, so the following are eqivalent: $is_nullable = $field->is_nullable(0); $is_nullable = $field->is_nullable(''); $is_nullable = $field->is_nullable('0'); While this is technically a field constraint, it's probably easier to represent this as an attribute of the field. In order keep things consistent, any other constraint on the field (unique, primary, and foreign keys; checks) are represented as table constraints. =cut my ( $self, $arg ) = @_; if ( defined $arg ) { $self->{'is_nullable'} = $arg ? 1 : 0; } if ( defined $self->{'is_nullable'} && $self->{'is_nullable'} == 1 && $self->is_primary_key ) { $self->{'is_nullable'} = 0; } return defined $self->{'is_nullable'} ? $self->{'is_nullable'} : 1; } # ---------------------------------------------------------------------- sub is_primary_key { =pod =head2 is_primary_key Get or set the field's C attribute. Does not create a table constraint (should it?). my $is_pk = $field->is_primary_key(1); =cut my ( $self, $arg ) = @_; if ( defined $arg ) { $self->{'is_primary_key'} = $arg ? 1 : 0; } unless ( defined $self->{'is_primary_key'} ) { if ( my $table = $self->table ) { if ( my $pk = $table->primary_key ) { my %fields = map { $_, 1 } $pk->fields; $self->{'is_primary_key'} = $fields{ $self->name } || 0; } else { $self->{'is_primary_key'} = 0; } } } return $self->{'is_primary_key'} || 0; } # ---------------------------------------------------------------------- sub is_unique { =pod =head2 is_unique Determine whether the field has a UNIQUE constraint or not. my $is_unique = $field->is_unique; =cut my $self = shift; unless ( defined $self->{'is_unique'} ) { if ( my $table = $self->table ) { for my $c ( $table->get_constraints ) { if ( $c->type eq UNIQUE ) { my %fields = map { $_, 1 } $c->fields; if ( $fields{ $self->name } ) { $self->{'is_unique'} = 1; last; } } } } } return $self->{'is_unique'} || 0; } # ---------------------------------------------------------------------- sub is_valid { =pod =head2 is_valid Determine whether the field is valid or not. my $ok = $field->is_valid; =cut my $self = shift; return $self->error('No name') unless $self->name; return $self->error('No data type') unless $self->data_type; return $self->error('No table object') unless $self->table; return 1; } # ---------------------------------------------------------------------- sub name { =pod =head2 name Get or set the field's name. my $name = $field->name('foo'); The field object will also stringify to its name. my $setter_name = "set_$field"; Errors ("No field name") if you try to set a blank name. =cut my $self = shift; if ( @_ ) { my $arg = shift || return $self->error( "No field name" ); if ( my $table = $self->table ) { return $self->error( qq[Can't use field name "$arg": field exists] ) if $table->get_field( $arg ); } $self->{'name'} = $arg; } return $self->{'name'} || ''; } sub full_name { =head2 full_name Read only method to return the fields name with its table name pre-pended. e.g. "person.foo". =cut my $self = shift; return $self->table.".".$self->name; } # ---------------------------------------------------------------------- sub order { =pod =head2 order Get or set the field's order. my $order = $field->order(3); =cut my ( $self, $arg ) = @_; if ( defined $arg && $arg =~ /^\d+$/ ) { $self->{'order'} = $arg; } return $self->{'order'} || 0; } # ---------------------------------------------------------------------- sub schema { =head2 schema Shortcut to get the fields schema ($field->table->schema) or undef if it doesn't have one. my $schema = $field->schema; =cut my $self = shift; if ( my $table = $self->table ) { return $table->schema || undef; } return undef; } # ---------------------------------------------------------------------- sub size { =pod =head2 size Get or set the field's size. Accepts a string, array or arrayref of numbers and returns a string. $field->size( 30 ); $field->size( [ 255 ] ); $size = $field->size( 10, 2 ); print $size; # prints "10,2" $size = $field->size( '10, 2' ); print $size; # prints "10,2" =cut my $self = shift; my $numbers = parse_list_arg( @_ ); if ( @$numbers ) { my @new; for my $num ( @$numbers ) { if ( defined $num && $num =~ m/^\d+(?:\.\d+)?$/ ) { push @new, $num; } } $self->{'size'} = \@new if @new; # only set if all OK } return wantarray ? @{ $self->{'size'} || [0] } : join( ',', @{ $self->{'size'} || [0] } ) ; } # ---------------------------------------------------------------------- sub table { =pod =head2 table Get or set the field's table object. As the table object stringifies this can also be used to get the table name. my $table = $field->table; print "Table name: $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 parsed_field { =head2 Returns the field exactly as the parser found it =cut my $self = shift; if (@_) { my $value = shift; $self->{parsed_field} = $value; return $value || $self; } return $self->{parsed_field} || $self; } # ---------------------------------------------------------------------- sub equals { =pod =head2 equals Determines if this field is the same as another my $isIdentical = $field1->equals( $field2 ); =cut my $self = shift; my $other = shift; my $case_insensitive = shift; return 0 unless $self->SUPER::equals($other); return 0 unless $case_insensitive ? uc($self->name) eq uc($other->name) : $self->name eq $other->name; # Comparing types: use sql_data_type if both are not 0. Else use string data_type if ($self->sql_data_type && $other->sql_data_type) { return 0 unless $self->sql_data_type == $other->sql_data_type } else { return 0 unless lc($self->data_type) eq lc($other->data_type) } return 0 unless $self->size eq $other->size; return 0 unless (!defined $self->default_value || $self->default_value eq 'NULL') eq (!defined $other->default_value || $other->default_value eq 'NULL'); return 0 if defined $self->default_value && $self->default_value ne $other->default_value; return 0 unless $self->is_nullable eq $other->is_nullable; # return 0 unless $self->is_unique eq $other->is_unique; return 0 unless $self->is_primary_key eq $other->is_primary_key; # return 0 unless $self->is_foreign_key eq $other->is_foreign_key; return 0 unless $self->is_auto_increment eq $other->is_auto_increment; # return 0 unless $self->comments eq $other->comments; return 0 unless $self->_compare_objects(scalar $self->extra, scalar $other->extra); return 1; } # ---------------------------------------------------------------------- sub DESTROY { # # Destroy cyclical references. # my $self = shift; undef $self->{'table'}; undef $self->{'foreign_key_reference'}; } 1; # ---------------------------------------------------------------------- =pod =head1 AUTHOR Ken Y. Clark Ekclark@cpan.orgE. =cut