package DBIx::Class::Schema::Loader; use strict; use warnings; use base qw/DBIx::Class::Schema Class::Data::Accessor/; use Carp::Clan qw/^DBIx::Class/; use UNIVERSAL::require; use Class::C3; use Scalar::Util qw/ weaken /; # Always remember to do all digits for the version even if they're 0 # i.e. first release of 0.XX *must* be 0.XX000. This avoids fBSD ports # brain damage and presumably various other packaging systems too our $VERSION = '0.04005'; __PACKAGE__->mk_classaccessor('_loader_args' => {}); __PACKAGE__->mk_classaccessors(qw/dump_to_dir _loader_invoked _loader/); =head1 NAME DBIx::Class::Schema::Loader - Dynamic definition of a DBIx::Class::Schema =head1 SYNOPSIS package My::Schema; use base qw/DBIx::Class::Schema::Loader/; __PACKAGE__->loader_options( constraint => '^foo.*', # debug => 1, ); # in seperate application code ... use My::Schema; my $schema1 = My::Schema->connect( $dsn, $user, $password, $attrs); # -or- my $schema1 = "My::Schema"; $schema1->connection(as above); =head1 DESCRIPTION DBIx::Class::Schema::Loader automates the definition of a L by scanning database table definitions and setting up the columns, primary keys, and relationships. DBIx::Class::Schema::Loader currently supports only the DBI storage type. It has explicit support for L, L, L, L, and L. Other DBI drivers may function to a greater or lesser degree with this loader, depending on how much of the DBI spec they implement, and how standard their implementation is. Patches to make other DBDs work correctly welcome. See L for notes on writing your own vendor-specific subclass for an unsupported DBD driver. This module requires L 0.07006 or later, and obsoletes the older L. This module is designed more to get you up and running quickly against an existing database, or to be effective for simple situations, rather than to be what you use in the long term for a complex database/project. That being said, transitioning your code from a Schema generated by this module to one that doesn't use this module should be straightforward and painless, so don't shy away from it just for fears of the transition down the road. =head1 METHODS =head2 loader_options Example in Synopsis above demonstrates a few common arguments. For detailed information on all of the arguments, most of which are only useful in fairly complex scenarios, see the L documentation. If you intend to use C, you must call C before any connection is made, or embed the C in the connection information itself as shown below. Setting C after the connection has already been made is useless. =cut sub loader_options { my $self = shift; my %args = (ref $_[0] eq 'HASH') ? %{$_[0]} : @_; $self->_loader_args(\%args); $self; } sub _invoke_loader { my $self = shift; my $class = ref $self || $self; my $args = $self->_loader_args; # set up the schema/schema_class arguments $args->{schema} = $self; $args->{schema_class} = $class; weaken($args->{schema}) if ref $self; $args->{dump_directory} ||= $self->dump_to_dir; # XXX this only works for relative storage_type, like ::DBI ... my $impl = "DBIx::Class::Schema::Loader" . $self->storage_type; $impl->require or croak qq/Could not load storage_type loader "$impl": / . qq/"$UNIVERSAL::require::ERROR"/; $self->_loader($impl->new(%$args)); $self->_loader->load; $self->_loader_invoked(1); $self; } =head2 connection See L for basic usage. If the final argument is a hashref, and it contains a key C, that key will be deleted, and its value will be used for the loader options, just as if set via the L method above. The actual auto-loading operation (the heart of this module) will be invoked as soon as the connection information is defined. =cut sub connection { my $self = shift; if($_[-1] && ref $_[-1] eq 'HASH') { if(my $loader_opts = delete $_[-1]->{loader_options}) { $self->loader_options($loader_opts); pop @_ if !keys %{$_[-1]}; } } $self = $self->next::method(@_); my $class = ref $self || $self; if(!$class->_loader_invoked) { $self->_invoke_loader } return $self; } =head2 clone See L. =cut sub clone { my $self = shift; my $clone = $self->next::method(@_); if($clone->_loader_args) { $clone->_loader_args->{schema} = $clone; weaken($clone->_loader_args->{schema}); } $clone; } =head2 dump_to_dir Argument: directory name. Calling this as a class method on either L or any derived schema class will cause all affected schemas to dump manual versions of themselves to the named directory when they are loaded. In order to be effective, this must be set before defining a connection on this schema class or any derived object (as the loading happens as soon as both a connection and loader_options are set, and only once per class). See L for more details on the dumping mechanism. This can also be set at module import time via the import option C to L, where C is the target directory. Examples: # My::Schema isa DBIx::Class::Schema::Loader, and has connection info # hardcoded in the class itself: perl -MDBIx::Class::Schema::Loader=dump_to_dir:/foo/bar -MMy::Schema -e1 # Same, but no hard-coded connection, so we must provide one: perl -MDBIx::Class::Schema::Loader=dump_to_dir:/foo/bar -MMy::Schema -e 'My::Schema->connection("dbi:Pg:dbname=foo", ...)' # Or as a class method, as long as you get it done *before* defining a # connection on this schema class or any derived object: use My::Schema; My::Schema->dump_to_dir('/foo/bar'); My::Schema->connection(........); # Or as a class method on the DBIx::Class::Schema::Loader itself, which affects all # derived schemas use My::Schema; use My::OtherSchema; DBIx::Class::Schema::Loader->dump_to_dir('/foo/bar'); My::Schema->connection(.......); My::OtherSchema->connection(.......); # Another alternative to the above: use DBIx::Class::Schema::Loader qw| dump_to_dir:/foo/bar |; use My::Schema; use My::OtherSchema; My::Schema->connection(.......); My::OtherSchema->connection(.......); =cut sub import { my $self = shift; return if !@_; foreach my $opt (@_) { if($opt =~ m{^dump_to_dir:(.*)$}) { $self->dump_to_dir($1) } elsif($opt eq 'make_schema_at') { no strict 'refs'; my $cpkg = (caller)[0]; *{"${cpkg}::make_schema_at"} = \&make_schema_at; } } } =head2 make_schema_at This simple function allows one to create a Loader-based schema in-memory on the fly without any on-disk class files of any kind. When used with the C option, you can use this to generate a rough draft manual schema from a dsn without the intermediate step of creating a physical Loader-based schema class. The return value is the input class name. This function can be exported/imported by the normal means, as illustrated in these Examples: # Simple example, creates as a new class 'New::Schema::Name' in # memory in the running perl interpreter. use DBIx::Class::Schema::Loader qw/ make_schema_at /; make_schema_at( 'New::Schema::Name', { debug => 1 }, [ 'dbi:Pg:dbname="foo"','postgres' ], ); # Complex: dump loaded schema to disk, all from the commandline: perl -MDBIx::Class::Schema::Loader=make_schema_at,dump_to_dir:./lib -e 'make_schema_at("New::Schema::Name", { debug => 1 }, [ "dbi:Pg:dbname=foo","postgres" ])' # Same, but inside a script, and using a different way to specify the # dump directory: use DBIx::Class::Schema::Loader qw/ make_schema_at /; make_schema_at( 'New::Schema::Name', { debug => 1, dump_directory => './lib' }, [ 'dbi:Pg:dbname="foo"','postgres' ], ); =cut sub make_schema_at { my ($target, $opts, $connect_info) = @_; { no strict 'refs'; @{$target . '::ISA'} = qw/DBIx::Class::Schema::Loader/; } $target->loader_options($opts); $target->connection(@$connect_info); } =head2 rescan Re-scans the database for newly added tables since the initial load, and adds them to the schema at runtime, including relationships, etc. Does not process drops or changes. Returns a list of the new monikers added. =cut sub rescan { my $self = shift; $self->_loader->rescan($self) } =head1 EXAMPLE Using the example in L as a basis replace the DB::Main with the following code: package DB::Main; use base qw/DBIx::Class::Schema::Loader/; __PACKAGE__->loader_options( debug => 1, ); __PACKAGE__->connection('dbi:SQLite:example.db'); 1; and remove the Main directory tree (optional). Every thing else should work the same =head1 KNOWN ISSUES =head2 Multiple Database Schemas Currently the loader is limited to working within a single schema (using the database vendors' definition of "schema"). If you have a multi-schema database with inter-schema relationships (which is easy to do in PostgreSQL or DB2 for instance), you only get to automatically load the tables of one schema, and any relationships to tables in other schemas will be silently ignored. At some point in the future, an intelligent way around this might be devised, probably by allowing the C option to be an arrayref of schemas to load. In "normal" L usage, manually-defined source classes and relationships have no problems crossing vendor schemas. =head1 AUTHOR Brandon Black, C Based on L by Sebastian Riedel Based upon the work of IKEBE Tomohiro =head1 THANK YOU Matt S Trout, all of the #dbix-class folks, and everyone who's ever sent in a bug report or suggestion. =head1 LICENSE This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO L, L =cut 1;