[dbsrgits/SQL-Translator.git] / lib / SQL / Translator / Schema / Graph.pm

package SQL::Translator::Schema::Graph;

use strict;

use Data::Dumper;

use SQL::Translator::Schema::Graph::Node;
use SQL::Translator::Schema::Graph::Edge;
use SQL::Translator::Schema::Graph::Port;
use SQL::Translator::Schema::Graph::CompoundEdge;
use SQL::Translator::Schema::Graph::HyperEdge;

use constant Node => 'SQL::Translator::Schema::Graph::Node';
use constant Edge => 'SQL::Translator::Schema::Graph::Edge';
use constant Port => 'SQL::Translator::Schema::Graph::Port';
use constant CompoundEdge => 'SQL::Translator::Schema::Graph::CompoundEdge';
use constant HyperEdge => 'SQL::Translator::Schema::Graph::HyperEdge';

use Class::MakeMethods::Template::Hash (
  'new --and_then_init' => 'new',
  object => [
			 'translator' => {class => 'SQL::Translator'},
			],
  'hash' => [ qw( node ) ],
  'scalar' => [ qw( baseclass ) ],
  'number --counter' => [ qw( order ) ],
);

sub init {
  my $self = shift;
  #
  # build package objects
  #
  foreach my $table ($self->translator->schema->get_tables){
	die __PACKAGE__." table ".$table->name." doesn't have a primary key!" unless $table->primary_key;
	die __PACKAGE__." table ".$table->name." can't have a composite primary key!" if ($table->primary_key->fields)[1];

	my $node = Node->new();

	$self->node_push($table->name => $node);

	$node->order($self->order_incr());
	$node->name( $self->translator->format_package_name($table->name) );
	$node->base( $self->baseclass );
	$node->table( $table );
	$node->primary_key( ($table->primary_key->fields)[0] );

	# Primary key may have a differenct accessor method name
	$node->primary_key_accessor(
								defined($self->translator->format_pk_name)
								? $self->translator->format_pk_name->( $node->name, $node->primary_key )
								: undef
							   );
  }

  foreach my $node ($self->node_values){
	foreach my $field ($node->table->get_fields){
	  next unless $field->is_foreign_key;

	  my $that = $self->node($field->foreign_key_reference->reference_table);

	  #this means we have an incomplete schema
	  next unless $that;

	  my $edge = Edge->new(
						   type => 'import',
						   thisnode => $node,
						   thisfield => $field,
						   thatnode => $that,
						   thatfield => ($field->foreign_key_reference->reference_fields)[0]
						  );


	  $node->has($that->name, $node->has($that->name)+1);
	  $that->many($node->name, $that->many($node->name)+1);

	  $node->push_edges( $edge );
	  $that->push_edges( $edge->flip );
	}
  }

  #
  # type MM relationships
  #
  foreach my $lnode (sort $self->node_values){
	next if $lnode->table->is_data;
	foreach my $inode1 (sort $self->node_values){
	  next if $inode1 eq $lnode;

	  my @inode1_imports = grep { $_->type eq 'import' and $_->thatnode eq $inode1 } $lnode->edges;
	  next unless @inode1_imports;

	  foreach my $inode2 (sort $self->node_values){
		my %i = map {$_->thatnode->name => 1} grep { $_->type eq 'import'} $lnode->edges;
		if(scalar(keys %i) == 1) {
		} else {
		  last if $inode1 eq $inode2;
		}

		next if $inode2 eq $lnode;
		my @inode2_imports =  grep { $_->type eq 'import' and $_->thatnode eq $inode2 } $lnode->edges;
		next unless @inode2_imports;

		my $cedge = CompoundEdge->new();
		$cedge->via($lnode);

		$cedge->push_edges( map {$_->flip} grep {$_->type eq 'import' and ($_->thatnode eq $inode1 or $_->thatnode eq $inode2)} $lnode->edges);

		if(scalar(@inode1_imports) == 1 and scalar(@inode2_imports) == 1){
		  $cedge->type('one2one');

		  $inode1->via($inode2->name,$inode1->via($inode2->name)+1);
		  $inode2->via($inode1->name,$inode2->via($inode1->name)+1);
		}
		elsif(scalar(@inode1_imports)  > 1 and scalar(@inode2_imports) == 1){
		  $cedge->type('many2one');

		  $inode1->via($inode2->name,$inode1->via($inode2->name)+1);
		  $inode2->via($inode1->name,$inode2->via($inode1->name)+1);
		}
		elsif(scalar(@inode1_imports) == 1 and scalar(@inode2_imports)  > 1){
		  #handled above
		}
		elsif(scalar(@inode1_imports)  > 1 and scalar(@inode2_imports)  > 1){
		  $cedge->type('many2many');

		  $inode1->via($inode2->name,$inode1->via($inode2->name)+1);
		  $inode2->via($inode1->name,$inode2->via($inode1->name)+1);
		}

		$inode1->push_compoundedges($cedge);
		$inode2->push_compoundedges($cedge) unless $inode1 eq $inode2;

	  }
	}
  }
}

1;
Commit	Line	Data
0caaf4c3	1	package SQL::Translator::Schema::Graph;
	2
	3	use strict;
	4
	5	use Data::Dumper;
	6
	7	use SQL::Translator::Schema::Graph::Node;
	8	use SQL::Translator::Schema::Graph::Edge;
	9	use SQL::Translator::Schema::Graph::Port;
	10	use SQL::Translator::Schema::Graph::CompoundEdge;
	11	use SQL::Translator::Schema::Graph::HyperEdge;
	12
	13	use constant Node => 'SQL::Translator::Schema::Graph::Node';
	14	use constant Edge => 'SQL::Translator::Schema::Graph::Edge';
	15	use constant Port => 'SQL::Translator::Schema::Graph::Port';
	16	use constant CompoundEdge => 'SQL::Translator::Schema::Graph::CompoundEdge';
	17	use constant HyperEdge => 'SQL::Translator::Schema::Graph::HyperEdge';
	18
	19	use Class::MakeMethods::Template::Hash (
	20	'new --and_then_init' => 'new',
	21	object => [
	22	'translator' => {class => 'SQL::Translator'},
	23	],
	24	'hash' => [ qw( node ) ],
	25	'scalar' => [ qw( baseclass ) ],
	26	'number --counter' => [ qw( order ) ],
	27	);
	28
	29	sub init {
	30	my $self = shift;
	31	#
	32	# build package objects
	33	#
	34	foreach my $table ($self->translator->schema->get_tables){
	35	die __PACKAGE__." table ".$table->name." doesn't have a primary key!" unless $table->primary_key;
	36	die __PACKAGE__." table ".$table->name." can't have a composite primary key!" if ($table->primary_key->fields)[1];
	37
	38	my $node = Node->new();
	39
	40	$self->node_push($table->name => $node);
	41
	42	$node->order($self->order_incr());
	43	$node->name( $self->translator->format_package_name($table->name) );
	44	$node->base( $self->baseclass );
	45	$node->table( $table );
	46	$node->primary_key( ($table->primary_key->fields)[0] );
	47
	48	# Primary key may have a differenct accessor method name
	49	$node->primary_key_accessor(
	50	defined($self->translator->format_pk_name)
	51	? $self->translator->format_pk_name->( $node->name, $node->primary_key )
	52	: undef
	53	);
	54	}
	55
	56	foreach my $node ($self->node_values){
	57	foreach my $field ($node->table->get_fields){
	58	next unless $field->is_foreign_key;
	59
	60	my $that = $self->node($field->foreign_key_reference->reference_table);
	61
	62	#this means we have an incomplete schema
	63	next unless $that;
	64
65	my $edge = Edge->new(
66	type => 'import',
67	thisnode => $node,
68	thisfield => $field,
69	thatnode => $that,
70	thatfield => ($field->foreign_key_reference->reference_fields)[0]
71	);
72
73
74	$node->has($that->name, $node->has($that->name)+1);
75	$that->many($node->name, $that->many($node->name)+1);
76
77	$node->push_edges( $edge );
78	$that->push_edges( $edge->flip );
79	}
80	}
81
82	#
83	# type MM relationships
84	#
85	foreach my $lnode (sort $self->node_values){
86	next if $lnode->table->is_data;
87	foreach my $inode1 (sort $self->node_values){
88	next if $inode1 eq $lnode;
89
90	my @inode1_imports = grep { $_->type eq 'import' and $_->thatnode eq $inode1 } $lnode->edges;
91	next unless @inode1_imports;
92
93	foreach my $inode2 (sort $self->node_values){
94	my %i = map {$_->thatnode->name => 1} grep { $_->type eq 'import'} $lnode->edges;
95	if(scalar(keys %i) == 1) {
96	} else {
97	last if $inode1 eq $inode2;
98	}
99
100	next if $inode2 eq $lnode;
101	my @inode2_imports = grep { $_->type eq 'import' and $_->thatnode eq $inode2 } $lnode->edges;
102	next unless @inode2_imports;
103
104	my $cedge = CompoundEdge->new();
105	$cedge->via($lnode);
106
107	$cedge->push_edges( map {$_->flip} grep {$_->type eq 'import' and ($_->thatnode eq $inode1 or $_->thatnode eq $inode2)} $lnode->edges);
108
109	if(scalar(@inode1_imports) == 1 and scalar(@inode2_imports) == 1){
110	$cedge->type('one2one');
111
112	$inode1->via($inode2->name,$inode1->via($inode2->name)+1);
113	$inode2->via($inode1->name,$inode2->via($inode1->name)+1);
114	}
115	elsif(scalar(@inode1_imports) > 1 and scalar(@inode2_imports) == 1){
116	$cedge->type('many2one');
117
118	$inode1->via($inode2->name,$inode1->via($inode2->name)+1);
119	$inode2->via($inode1->name,$inode2->via($inode1->name)+1);
120	}
121	elsif(scalar(@inode1_imports) == 1 and scalar(@inode2_imports) > 1){
122	#handled above
123	}
124	elsif(scalar(@inode1_imports) > 1 and scalar(@inode2_imports) > 1){
125	$cedge->type('many2many');
126
127	$inode1->via($inode2->name,$inode1->via($inode2->name)+1);
128	$inode2->via($inode1->name,$inode2->via($inode1->name)+1);
129	}
130
131	$inode1->push_compoundedges($cedge);
132	$inode2->push_compoundedges($cedge) unless $inode1 eq $inode2;
133
134	}
135	}
136	}
137	}
138
139	1;