use aliased 'SQL::Translator::Object::ForeignKey';
use aliased 'SQL::Translator::Object::Index';
use aliased 'SQL::Translator::Object::PrimaryKey';
+ use aliased 'SQL::Translator::Object::Procedure';
use aliased 'SQL::Translator::Object::Schema';
use aliased 'SQL::Translator::Object::Table';
+ use aliased 'SQL::Translator::Object::View';
around _build_data_type_mapping {
my $data_type_mapping = $self->$orig;
"instance: Bad grammar");
}
-# my $parser_version = parse_mysql_version(
-# $translator->parser_args->{mysql_parser_version}, 'mysql'
-# ) || DEFAULT_PARSER_VERSION;
- my $parser_version = 30000;
+ my $translator = $self->translator;
+
+ my $parser_version = $translator->has_parser_args
+ ? $translator->engine_version($translator->parser_args->{mysql_parser_version}, 'mysql') || DEFAULT_PARSER_VERSION
+ : DEFAULT_PARSER_VERSION;
while ($data =~ s#/\*!(\d{5})?(.*?)\*/#($1 && $1 > $parser_version ? '' : $2)#es) { }
my $result = $parser->startrule($data);
die "Parse failed" unless defined $result;
- my $translator = $self->translator;
my $schema = $translator->schema;
$schema->name($result->{'database_name'}) if $result->{'database_name'};
is_auto_increment => $fdata->{is_auto_inc},
is_nullable => $fdata->{null},
is_primary_key => $fdata->{is_primary_key} ? 1 : 0,
- comments => $fdata->{comments},
table => $table,
});
+ $field->comments($fdata->{comments});
$table->add_column($field);
$table->primary_key( $field->name ) if $fdata->{'is_primary_key'};
if ( $fdata->{is_unique} ) {
push @{ $tdata->{constraints} }, { name => '', type => 'UNIQUE', fields => [ $fdata->{name} ] };
-# my $constraint = Constraint->new({ name => '', type => 'UNIQUE' });
-# $constraint->add_column($table->get_column($fdata->{name}));
-# $table->add_constraint($constraint);
}
for my $cdata ( @{ $fdata->{constraints} } ) {
}
-# if ( my @options = @{ $tdata->{'table_options'} || [] } ) {
-# my @cleaned_options;
-# my @ignore_opts = $self->parser_args->{'ignore_opts'}
-# ? split( /,/, $self->parser_args->{'ignore_opts'} )
-# : ();
-# if (@ignore_opts) {
-# my $ignores = { map { $_ => 1 } @ignore_opts };
-# foreach my $option (@options) {
-# # make sure the option isn't in ignore list
-# my ($option_key) = keys %$option;
-# if ( !exists $ignores->{$option_key} ) {
-# push @cleaned_options, $option;
-# }
-# }
-# } else {
-# @cleaned_options = @options;
-# }
-# $table->options( \@cleaned_options ) or die $table->error;
-# }
+ if ( my @options = @{ $tdata->{'table_options'} || [] } ) {
+ my @cleaned_options;
+ my @ignore_opts = $translator->has_parser_args && $translator->parser_args->{'ignore_opts'}
+ ? split( /,/, $translator->parser_args->{'ignore_opts'} )
+ : ();
+ if (@ignore_opts) {
+ my $ignores = { map { $_ => 1 } @ignore_opts };
+ foreach my $option (@options) {
+ # make sure the option isn't in ignore list
+ my ($option_key) = keys %$option;
+ if ( !exists $ignores->{$option_key} ) {
+ push @cleaned_options, $option;
+ }
+ }
+ } else {
+ @cleaned_options = @options;
+ }
+ $table->options( \@cleaned_options ); # or die $table->error;
+ }
for my $cdata ( @{ $tdata->{constraints} || [] } ) {
my $constraint;
if (uc $cdata->{type} eq 'PRIMARY_KEY') {
- $constraint = PrimaryKey->new({ name => $cdata->{name} || 'primary_key', table => $table });
- $constraint->add_column($table->get_column($_)) for @{$cdata->{fields}};
- $table->get_column($_)->is_primary_key(1) for @{$cdata->{fields}};
+ $constraint = PrimaryKey->new({ name => $cdata->{name} || '', table => $table });
+ $table->get_column($_)->is_primary_key(1) for @{$cdata->{fields}};
} elsif (uc $cdata->{type} eq 'FOREIGN_KEY') {
- $constraint = ForeignKey->new({ name => $cdata->{name} || 'foreign_key',
+ $constraint = ForeignKey->new({ name => $cdata->{name} || '',
table => $table,
reference_table => $cdata->{reference_table},
reference_columns => $cdata->{reference_fields},
$table->get_column($_)->is_foreign_key(1) for @{$cdata->{fields}};
$table->get_column($_)->foreign_key_reference($constraint) for @{$cdata->{fields}};
} else {
- $constraint = Constraint->new({ name => $cdata->{name} || 'constraint', type => uc $cdata->{type}, table => $table });
- $constraint->add_column($table->get_column($_)) for @{$cdata->{fields}};
+ $constraint = Constraint->new({ name => $cdata->{name} || '', type => uc $cdata->{type}, table => $table });
}
+ $constraint->add_column($table->get_column($_)) for @{$cdata->{fields}};
$table->add_constraint($constraint);
-
-# my $constraint = $table->add_constraint(
-# name => $cdata->{'name'},
-# type => $cdata->{'type'},
-# fields => $cdata->{'fields'},
-# reference_table => $cdata->{'reference_table'},
-# reference_fields => $cdata->{'reference_fields'},
-# match_type => $cdata->{'match_type'} || '',
-# on_delete => $cdata->{'on_delete'}
-# || $cdata->{'on_delete_do'},
-# on_update => $cdata->{'on_update'}
-# || $cdata->{'on_update_do'},
-# ) or die $table->error;
}
-
- # After the constrains and PK/idxs have been created,
- # we normalize fields
- normalize_field($_) for $table->get_fields;
}
-# my @procedures = sort { $result->{procedures}->{ $a }->{'order'} <=> $result->{procedures}->{ $b }->{'order'} } keys %{ $result->{procedures} };
-
-# for my $proc_name ( @procedures ) {
-# $schema->add_procedure(
-# name => $proc_name,
-# owner => $result->{procedures}->{$proc_name}->{owner},
-# sql => $result->{procedures}->{$proc_name}->{sql},
-# );
-# }
-
-# my @views = sort { $result->{views}->{ $a }->{'order'} <=> $result->{views}->{ $b }->{'order'} } keys %{ $result->{views} };
-
-# for my $view_name ( keys %{ $result->{'views'} } ) {
-# $schema->add_view(
-# name => $view_name,
-# sql => $result->{'views'}->{$view_name}->{sql},
-# );
-# }
- return $schema;
- }
-
- # Takes a field, and returns
- method normalize_field {
- my ($size, $type, $list, $changed); # = @_;
-
- $size = $self->size || 0;
- $type = $self->data_type;
- $list = $self->extra->{list} || [];
-
- if ( !ref $size && $size == 0 ) {
- if ( lc $type eq 'tinyint' ) {
- $changed = $size != 4;
- $size = 4;
- }
- elsif ( lc $type eq 'smallint' ) {
- $changed = $size != 6;
- $size = 6;
- }
- elsif ( lc $type eq 'mediumint' ) {
- $changed = $size != 9;
- $size = 9;
- }
- elsif ( $type =~ /^int(eger)?$/i ) {
- $changed = $size != 11 || $type ne 'int';
- $type = 'int';
- $size = 11;
- }
- elsif ( lc $type eq 'bigint' ) {
- $changed = $size != 20;
- $size = 20;
- }
- elsif ( lc $type =~ /(float|double|decimal|numeric|real|fixed|dec)/ ) {
- my $old_size = (ref $size || '') eq 'ARRAY' ? $size : [];
- $changed = @$old_size != 2
- || $old_size->[0] != 8
- || $old_size->[1] != 2;
- $size = [8,2];
- }
+ for my $proc_name ( keys %{ $result->{procedures} } ) {
+ my $procedure = Procedure->new({ name => $proc_name,
+ owner => $result->{procedures}->{$proc_name}->{owner},
+ sql => $result->{procedures}->{$proc_name}->{sql}
+ });
+ $schema->add_procedure($procedure);
}
- if ( $type =~ /^tiny(text|blob)$/i ) {
- $changed = $size != 255;
- $size = 255;
+ for my $view_name ( keys %{ $result->{'views'} } ) {
+ my $view = View->new({
+ name => $view_name,
+ sql => $result->{'views'}->{$view_name}->{sql},
+ });
+ $schema->add_view($view);
}
- elsif ( $type =~ /^(blob|text)$/i ) {
- $changed = $size != 65_535;
- $size = 65_535;
- }
- elsif ( $type =~ /^medium(blob|text)$/i ) {
- $changed = $size != 16_777_215;
- $size = 16_777_215;
- }
- elsif ( $type =~ /^long(blob|text)$/i ) {
- $changed = $size != 4_294_967_295;
- $size = 4_294_967_295;
- }
-
- if ( $type =~ /(set|enum)/i && !$size ) {
- my %extra = $self->extra;
- my $longest = 0;
- for my $len ( map { length } @{ $extra{'list'} || [] } ) {
- $longest = $len if $len > $longest;
- }
- $changed = 1;
- $size = $longest if $longest;
- }
-
-# if ( $changed ) {
- # We only want to clone the field, not *everything*
-# {
-# local $field->{table} = undef;
-# $field->parsed_field( dclone( $field ) );
-# $field->parsed_field->{table} = $field->table;
-# }
- $self->size( $size );
- $self->data_type( $type );
-# $column->sql_data_type( $self->data_type_mapping->{$type} || -99999 );
- $self->extra->{list} = $list if @$list;
-# }
return 1;
}
}