require_relative "spec_helper" describe "Class Table Inheritance Plugin" do before(:all) do @db = DB @db.instance_variable_get(:@schemas).clear @db.drop_table?(:staff, :executives, :managers, :employees) @db.create_table(:employees) do primary_key :id String :name String :kind end @db.create_table(:managers) do foreign_key :id, :employees, :primary_key=>true Integer :num_staff end @db.create_table(:executives) do foreign_key :id, :managers, :primary_key=>true Integer :num_managers end @db.create_table(:staff) do foreign_key :id, :employees, :primary_key=>true foreign_key :manager_id, :managers end end before do [:staff, :executives, :managers, :employees].each{|t| @db[t].delete} class ::Employee < Sequel::Model(@db) plugin :class_table_inheritance, :key=>:kind, :table_map=>{:Staff=>:staff} end class ::Manager < Employee one_to_many :staff_members, :class=>:Staff one_to_one :first_staff_member, :clone=>:staff_members, :order=>:id end class ::Executive < Manager end class ::Ceo < Executive end class ::Staff < Employee many_to_one :manager end class ::Intern < Employee end @i1 = @db[:employees].insert(:name=>'E', :kind=>'Employee') @i2 = @db[:employees].insert(:name=>'S', :kind=>'Staff') @i3 = @db[:employees].insert(:name=>'M', :kind=>'Manager') @db[:managers].insert(:id=>@i3, :num_staff=>7) @i4 = @db[:employees].insert(:name=>'Ex', :kind=>'Executive') @db[:managers].insert(:id=>@i4, :num_staff=>5) @db[:executives].insert(:id=>@i4, :num_managers=>6) @i5 = @db[:employees].insert(:name=>'C', :kind=>'Ceo') @db[:managers].insert(:id=>@i5, :num_staff=>2) @db[:executives].insert(:id=>@i5, :num_managers=>1) @db[:staff].insert(:id=>@i2, :manager_id=>@i4) @i6 = @db[:employees].insert(:name=>'I', :kind=>'Intern') end after do [:Intern, :Ceo, :Executive, :Manager, :Staff, :Employee].each{|s| Object.send(:remove_const, s)} end after(:all) do @db.drop_table? :staff, :executives, :managers, :employees end it "should return rows as subclass instances" do Employee.order(:id).all.must_equal [ Employee.load(:id=>@i1, :name=>'E', :kind=>'Employee'), Staff.load(:id=>@i2, :name=>'S', :kind=>'Staff'), Manager.load(:id=>@i3, :name=>'M', :kind=>'Manager'), Executive.load(:id=>@i4, :name=>'Ex', :kind=>'Executive'), Ceo.load(:id=>@i5, :name=>'C', :kind=>'Ceo'), Intern.load(:id=>@i6, :name=>'I', :kind=>'Intern'), ] end it "should lazily load columns in subclass tables" do Employee[@i2][:manager_id].must_be_nil Employee[@i2].manager_id.must_equal @i4 Employee[@i3][:num_staff].must_be_nil Employee[@i3].num_staff.must_equal 7 Employee[@i4][:num_staff].must_be_nil Employee[@i4].num_staff.must_equal 5 Employee[@i4][:num_managers].must_be_nil Employee[@i4].num_managers.must_equal 6 Employee[@i5][:num_managers].must_be_nil Employee[@i5].num_managers.must_equal 1 end it "should eagerly load columns in subclass tables when retrieving multiple objects" do a = Employee.order(:id).all a[1][:manager_id].must_be_nil a[1].manager_id.must_equal @i4 a[2][:num_staff].must_be_nil a[2].num_staff.must_equal 7 a[3][:num_staff].must_equal 5 # eagerly loaded by previous call a[3].num_staff.must_equal 5 a[3][:num_managers].must_be_nil a[3].num_managers.must_equal 6 a[4][:num_managers].must_equal 1 a[4].num_managers.must_equal 1 end it "should include schema for columns for tables for ancestor classes" do Employee.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :name] Staff.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :manager_id, :name] Manager.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :name, :num_staff] Executive.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :name, :num_managers, :num_staff] Ceo.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :name, :num_managers, :num_staff] Intern.db_schema.keys.sort_by{|x| x.to_s}.must_equal [:id, :kind, :name] end it "should include columns for tables for ancestor classes" do Employee.columns.must_equal [:id, :name, :kind] Staff.columns.must_equal [:id, :name, :kind, :manager_id] Manager.columns.must_equal [:id, :name, :kind, :num_staff] Executive.columns.must_equal [:id, :name, :kind, :num_staff, :num_managers] Ceo.columns.must_equal [:id, :name, :kind, :num_staff, :num_managers] Intern.columns.must_equal [:id, :name, :kind] end it "should delete rows from all tables" do e = Ceo.first i = e.id e.staff_members_dataset.destroy e.destroy @db[:executives][:id=>i].must_be_nil @db[:managers][:id=>i].must_be_nil @db[:employees][:id=>i].must_be_nil end it "should handle associations only defined in subclasses" do Employee.filter(Sequel[:employees][:id]=>@i2).all.first.manager.id.must_equal @i4 end it "should insert rows into all tables" do e = Ceo.create(:name=>'Ex2', :num_managers=>8, :num_staff=>9) i = e.id @db[:employees][:id=>i].must_equal(:id=>i, :name=>'Ex2', :kind=>'Ceo') @db[:managers][:id=>i].must_equal(:id=>i, :num_staff=>9) @db[:executives][:id=>i].must_equal(:id=>i, :num_managers=>8) end it "should update rows in all tables" do Executive[:id=>@i4].update(:name=>'Ex2', :num_managers=>8, :num_staff=>9) @db[:employees][:id=>@i4].must_equal(:id=>@i4, :name=>'Ex2', :kind=>'Executive') @db[:managers][:id=>@i4].must_equal(:id=>@i4, :num_staff=>9) @db[:executives][:id=>@i4].must_equal(:id=>@i4, :num_managers=>8) end it "should handle many_to_one relationships" do m = Staff.first.manager m.must_equal Manager[@i4] m.must_be_kind_of(Executive) Staff.first.update(:manager => Manager[@i3]) Staff.first.manager.must_equal Manager[@i3] end it "should handle eagerly loading many_to_one relationships" do Staff.limit(1).eager(:manager).all.map{|x| x.manager}.must_equal [Manager[@i4]] end it "should handle eagerly graphing many_to_one relationships" do ss = Staff.eager_graph(:manager).all ss.must_equal [Staff[@i2]] ss.map{|x| x.manager}.must_equal [Manager[@i4]] end it "should handle one_to_many relationships" do Executive.first(:name=>'Ex').staff_members.must_equal [Staff[@i2]] i6 = @db[:employees].insert(:name=>'S2', :kind=>'Staff') @db[:staff].insert(:id=>i6, :manager_id=>@i4) Executive.first(:name=>'Ex').add_staff_member(i6) Executive.first(:name=>'Ex').staff_members{|ds| ds.order(:id)}.must_equal [Staff[@i2], Staff[i6]] end it "should handle one_to_many relationships" do Executive.first(:name=>'Ex').first_staff_member.must_equal Staff[@i2] i6 = @db[:employees].insert(:name=>'S2', :kind=>'Staff') @db[:staff].insert(:id=>i6, :manager_id=>@i4) Executive.first(:name=>'Ex').first_staff_member = Staff[i6] Executive.first(:name=>'Ex').staff_members.must_equal [Staff[i6]] end it "should handle eagerly loading one_to_many relationships" do Executive.where(:name=>'Ex').eager(:staff_members).first.staff_members.must_equal [Staff[@i2]] end it "should handle eagerly graphing one_to_many relationships" do es = Executive.where(Sequel[:employees][:name]=>'Ex').eager_graph(:staff_members).all es.must_equal [Executive[@i4]] es.map{|x| x.staff_members}.must_equal [[Staff[@i2]]] end end describe "Many Through Many Plugin" do before(:all) do @db = DB @db.instance_variable_get(:@schemas).clear @db.drop_table?(:albums_artists, :albums, :artists) @db.create_table(:albums) do primary_key :id String :name end @db.create_table(:artists) do primary_key :id String :name end @db.create_table(:albums_artists) do foreign_key :album_id, :albums foreign_key :artist_id, :artists end end before do [:albums_artists, :albums, :artists].each{|t| @db[t].delete} class ::Album < Sequel::Model(@db) many_to_many :artists end class ::Artist < Sequel::Model(@db) plugin :many_through_many end @artist1 = Artist.create(:name=>'1') @artist2 = Artist.create(:name=>'2') @artist3 = Artist.create(:name=>'3') @artist4 = Artist.create(:name=>'4') @album1 = Album.create(:name=>'A') @album1.add_artist(@artist1) @album1.add_artist(@artist2) @album2 = Album.create(:name=>'B') @album2.add_artist(@artist3) @album2.add_artist(@artist4) @album3 = Album.create(:name=>'C') @album3.add_artist(@artist2) @album3.add_artist(@artist3) @album4 = Album.create(:name=>'D') @album4.add_artist(@artist1) @album4.add_artist(@artist4) end after do [:Album, :Artist].each{|s| Object.send(:remove_const, s)} end after(:all) do @db.drop_table? :albums_artists, :albums, :artists end def around DB.transaction(:rollback=>:always){super} end def self_join(c) c.join(Sequel.as(c.table_name, :b), Array(c.primary_key).zip(Array(c.primary_key))).select_all(c.table_name) end it "should handle super simple case with 1 join table" do Artist.many_through_many :albums, [[:albums_artists, :artist_id, :album_id]] Artist[@artist1.id].albums.map{|x| x.name}.sort.must_equal %w'A D' Artist[@artist2.id].albums.map{|x| x.name}.sort.must_equal %w'A C' Artist[@artist3.id].albums.map{|x| x.name}.sort.must_equal %w'B C' Artist[@artist4.id].albums.map{|x| x.name}.sort.must_equal %w'B D' Artist[@artist1.id].albums.map{|x| x.name}.sort.must_equal %w'A D' Artist[@artist2.id].albums.map{|x| x.name}.sort.must_equal %w'A C' Artist[@artist3.id].albums.map{|x| x.name}.sort.must_equal %w'B C' Artist[@artist4.id].albums.map{|x| x.name}.sort.must_equal %w'B D' Artist.filter(:id=>@artist1.id).eager(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'A D' Artist.filter(:id=>@artist2.id).eager(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'A C' Artist.filter(:id=>@artist3.id).eager(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'B C' Artist.filter(:id=>@artist4.id).eager(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'B D' Artist.filter(Sequel[:artists][:id]=>@artist1.id).eager_graph(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'A D' Artist.filter(Sequel[:artists][:id]=>@artist2.id).eager_graph(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'A C' Artist.filter(Sequel[:artists][:id]=>@artist3.id).eager_graph(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'B C' Artist.filter(Sequel[:artists][:id]=>@artist4.id).eager_graph(:albums).all.map{|x| x.albums.map{|a| a.name}}.flatten.sort.must_equal %w'B D' Artist.filter(:albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'1 2' Artist.filter(:albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'3 4' Artist.filter(:albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'2 3' Artist.filter(:albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'1 4' Artist.exclude(:albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'3 4' Artist.exclude(:albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'1 2' Artist.exclude(:albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'1 4' Artist.exclude(:albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'2 3' Artist.filter(:albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.filter(:albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'1 3 4' Artist.exclude(:albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'4' Artist.exclude(:albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'2' Artist.filter(:albums=>Album.filter(:id=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.exclude(:albums=>Album.filter(:id=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'4' c = self_join(Artist) c.filter(:albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'1 2' c.filter(:albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'3 4' c.filter(:albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'2 3' c.filter(:albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'1 4' c.exclude(:albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'3 4' c.exclude(:albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'1 2' c.exclude(:albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'1 4' c.exclude(:albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'2 3' c.filter(:albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.filter(:albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'1 3 4' c.exclude(:albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'4' c.exclude(:albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'2' c.filter(:albums=>self_join(Album).filter(Sequel[:albums][:id]=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.exclude(:albums=>self_join(Album).filter(Sequel[:albums][:id]=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'4' end it "should handle typical case with 3 join tables" do Artist.many_through_many :related_artists, [[:albums_artists, :artist_id, :album_id], [:albums, :id, :id], [:albums_artists, :album_id, :artist_id]], :class=>Artist, :distinct=>true, :delay_pks=>false Artist[@artist1.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 2 4' Artist[@artist2.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 2 3' Artist[@artist3.id].related_artists.map{|x| x.name}.sort.must_equal %w'2 3 4' Artist[@artist4.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 3 4' Artist[@artist1.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 2 4' Artist[@artist2.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 2 3' Artist[@artist3.id].related_artists.map{|x| x.name}.sort.must_equal %w'2 3 4' Artist[@artist4.id].related_artists.map{|x| x.name}.sort.must_equal %w'1 3 4' Artist.filter(:id=>@artist1.id).eager(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 2 4' Artist.filter(:id=>@artist2.id).eager(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 2 3' Artist.filter(:id=>@artist3.id).eager(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'2 3 4' Artist.filter(:id=>@artist4.id).eager(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 3 4' Artist.filter(Sequel[:artists][:id]=>@artist1.id).eager_graph(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 2 4' Artist.filter(Sequel[:artists][:id]=>@artist2.id).eager_graph(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 2 3' Artist.filter(Sequel[:artists][:id]=>@artist3.id).eager_graph(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'2 3 4' Artist.filter(Sequel[:artists][:id]=>@artist4.id).eager_graph(:related_artists).all.map{|x| x.related_artists.map{|a| a.name}}.flatten.sort.must_equal %w'1 3 4' Artist.filter(:related_artists=>@artist1).all.map{|a| a.name}.sort.must_equal %w'1 2 4' Artist.filter(:related_artists=>@artist2).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.filter(:related_artists=>@artist3).all.map{|a| a.name}.sort.must_equal %w'2 3 4' Artist.filter(:related_artists=>@artist4).all.map{|a| a.name}.sort.must_equal %w'1 3 4' Artist.exclude(:related_artists=>@artist1).all.map{|a| a.name}.sort.must_equal %w'3' Artist.exclude(:related_artists=>@artist2).all.map{|a| a.name}.sort.must_equal %w'4' Artist.exclude(:related_artists=>@artist3).all.map{|a| a.name}.sort.must_equal %w'1' Artist.exclude(:related_artists=>@artist4).all.map{|a| a.name}.sort.must_equal %w'2' Artist.filter(:related_artists=>[@artist1, @artist4]).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' Artist.exclude(:related_artists=>[@artist1, @artist4]).all.map{|a| a.name}.sort.must_equal %w'' Artist.filter(:related_artists=>Artist.filter(:id=>@artist1.id)).all.map{|a| a.name}.sort.must_equal %w'1 2 4' Artist.exclude(:related_artists=>Artist.filter(:id=>@artist1.id)).all.map{|a| a.name}.sort.must_equal %w'3' c = self_join(Artist) c.filter(:related_artists=>@artist1).all.map{|a| a.name}.sort.must_equal %w'1 2 4' c.filter(:related_artists=>@artist2).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.filter(:related_artists=>@artist3).all.map{|a| a.name}.sort.must_equal %w'2 3 4' c.filter(:related_artists=>@artist4).all.map{|a| a.name}.sort.must_equal %w'1 3 4' c.exclude(:related_artists=>@artist1).all.map{|a| a.name}.sort.must_equal %w'3' c.exclude(:related_artists=>@artist2).all.map{|a| a.name}.sort.must_equal %w'4' c.exclude(:related_artists=>@artist3).all.map{|a| a.name}.sort.must_equal %w'1' c.exclude(:related_artists=>@artist4).all.map{|a| a.name}.sort.must_equal %w'2' c.filter(:related_artists=>[@artist1, @artist4]).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' c.exclude(:related_artists=>[@artist1, @artist4]).all.map{|a| a.name}.sort.must_equal %w'' c.filter(:related_artists=>c.filter(Sequel[:artists][:id]=>@artist1.id)).all.map{|a| a.name}.sort.must_equal %w'1 2 4' c.exclude(:related_artists=>c.filter(Sequel[:artists][:id]=>@artist1.id)).all.map{|a| a.name}.sort.must_equal %w'3' end it "should handle extreme case with 5 join tables" do Artist.many_through_many :related_albums, [[:albums_artists, :artist_id, :album_id], [:albums, :id, :id], [:albums_artists, :album_id, :artist_id], [:artists, :id, :id], [:albums_artists, :artist_id, :album_id]], :class=>Album, :distinct=>true @db[:albums_artists].delete @album1.add_artist(@artist1) @album1.add_artist(@artist2) @album2.add_artist(@artist2) @album2.add_artist(@artist3) @album3.add_artist(@artist1) @album4.add_artist(@artist3) @album4.add_artist(@artist4) Artist[@artist1.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B C' Artist[@artist2.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B C D' Artist[@artist3.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B D' Artist[@artist4.id].related_albums.map{|x| x.name}.sort.must_equal %w'B D' Artist[@artist1.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B C' Artist[@artist2.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B C D' Artist[@artist3.id].related_albums.map{|x| x.name}.sort.must_equal %w'A B D' Artist[@artist4.id].related_albums.map{|x| x.name}.sort.must_equal %w'B D' Artist.filter(:id=>@artist1.id).eager(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B C' Artist.filter(:id=>@artist2.id).eager(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B C D' Artist.filter(:id=>@artist3.id).eager(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B D' Artist.filter(:id=>@artist4.id).eager(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'B D' Artist.filter(Sequel[:artists][:id]=>@artist1.id).eager_graph(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B C' Artist.filter(Sequel[:artists][:id]=>@artist2.id).eager_graph(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B C D' Artist.filter(Sequel[:artists][:id]=>@artist3.id).eager_graph(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'A B D' Artist.filter(Sequel[:artists][:id]=>@artist4.id).eager_graph(:related_albums).all.map{|x| x.related_albums.map{|a| a.name}}.flatten.sort.must_equal %w'B D' Artist.filter(:related_albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.filter(:related_albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' Artist.filter(:related_albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'1 2' Artist.filter(:related_albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'2 3 4' Artist.exclude(:related_albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'4' Artist.exclude(:related_albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'' Artist.exclude(:related_albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'3 4' Artist.exclude(:related_albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'1' Artist.filter(:related_albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.filter(:related_albums=>[@album3, @album4]).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' Artist.exclude(:related_albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'4' Artist.exclude(:related_albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'' Artist.filter(:related_albums=>Album.filter(:id=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'1 2 3' Artist.exclude(:related_albums=>Album.filter(:id=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'4' c = self_join(Artist) c.filter(:related_albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.filter(:related_albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' c.filter(:related_albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'1 2' c.filter(:related_albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'2 3 4' c.exclude(:related_albums=>@album1).all.map{|a| a.name}.sort.must_equal %w'4' c.exclude(:related_albums=>@album2).all.map{|a| a.name}.sort.must_equal %w'' c.exclude(:related_albums=>@album3).all.map{|a| a.name}.sort.must_equal %w'3 4' c.exclude(:related_albums=>@album4).all.map{|a| a.name}.sort.must_equal %w'1' c.filter(:related_albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.filter(:related_albums=>[@album3, @album4]).all.map{|a| a.name}.sort.must_equal %w'1 2 3 4' c.exclude(:related_albums=>[@album1, @album3]).all.map{|a| a.name}.sort.must_equal %w'4' c.exclude(:related_albums=>[@album2, @album4]).all.map{|a| a.name}.sort.must_equal %w'' c.filter(:related_albums=>self_join(Album).filter(Sequel[:albums][:id]=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'1 2 3' c.exclude(:related_albums=>self_join(Album).filter(Sequel[:albums][:id]=>[@album1.id, @album3.id])).all.map{|a| a.name}.sort.must_equal %w'4' end end describe "Lazy Attributes plugin" do before(:all) do @db = DB @db.create_table!(:items) do primary_key :id String :name Integer :num end @db[:items].delete class ::Item < Sequel::Model(@db) plugin :lazy_attributes, :num end Item.create(:name=>'J', :num=>1) end after(:all) do @db.drop_table?(:items) Object.send(:remove_const, :Item) end it "should not include lazy attribute columns by default" do Item.first.must_equal Item.load(:id=>1, :name=>'J') end it "should load lazy attribute on access" do Item.first.num.must_equal 1 end it "should typecast lazy attribute in setter" do i = Item.new i.num = '1' i.num.must_equal 1 end it "should load lazy attribute for all items returned when accessing any item if using identity map " do Item.create(:name=>'K', :num=>2) a = Item.order(:name).all a.must_equal [Item.load(:id=>1, :name=>'J'), Item.load(:id=>2, :name=>'K')] a.map{|x| x[:num]}.must_equal [nil, nil] a.first.num.must_equal 1 a.map{|x| x[:num]}.must_equal [1, 2] a.last.num.must_equal 2 end end describe "Tactical Eager Loading Plugin" do before(:all) do @db = DB @db.instance_variable_get(:@schemas).clear @db.drop_table?(:albums_artists) @db.create_table!(:artists) do primary_key :id String :name end @db.create_table!(:albums) do primary_key :id String :name foreign_key :artist_id, :artists end end before do @db[:albums].delete @db[:artists].delete class ::Album < Sequel::Model(@db) plugin :tactical_eager_loading many_to_one :artist end class ::Artist < Sequel::Model(@db) plugin :tactical_eager_loading one_to_many :albums, :order=>:name end @artist1 = Artist.create(:name=>'1') @artist2 = Artist.create(:name=>'2') @artist3 = Artist.create(:name=>'3') @artist4 = Artist.create(:name=>'4') @album1 = Album.create(:name=>'A', :artist=>@artist1) @album2 = Album.create(:name=>'B', :artist=>@artist1) @album3 = Album.create(:name=>'C', :artist=>@artist2) @album4 = Album.create(:name=>'D', :artist=>@artist3) end after do [:Album, :Artist].each{|s| Object.send(:remove_const, s)} end after(:all) do @db.drop_table? :albums, :artists end it "should eagerly load associations for all items when accessing any item" do a = Artist.order(:name).all a.map{|x| x.associations}.must_equal [{}, {}, {}, {}] a.first.albums.must_equal [@album1, @album2] a.map{|x| x.associations}.must_equal [{:albums=>[@album1, @album2]}, {:albums=>[@album3]}, {:albums=>[@album4]}, {:albums=>[]}] a = Album.order(:name).all a.map{|x| x.associations}.must_equal [{}, {}, {}, {}] a.first.artist.must_equal @artist1 a.map{|x| x.associations}.must_equal [{:artist=>@artist1}, {:artist=>@artist1}, {:artist=>@artist2}, {:artist=>@artist3}] end end describe "Touch plugin" do before(:all) do @db = DB @db.drop_table? :albums_artists, :albums, :artists @db.create_table(:artists) do primary_key :id String :name DateTime :updated_at end @db.create_table(:albums) do primary_key :id String :name foreign_key :artist_id, :artists DateTime :updated_at end @db.create_join_table({:album_id=>:albums, :artist_id=>:artists}, :no_index=>true) end before do @db[:albums].delete @db[:artists].delete class ::Album < Sequel::Model(@db) end class ::Artist < Sequel::Model(@db) end @artist = Artist.create(:name=>'1') @album = Album.create(:name=>'A', :artist_id=>@artist.id) end after do [:Album, :Artist].each{|s| Object.send(:remove_const, s)} end after(:all) do @db.drop_table? :albums_artists, :albums, :artists end def around DB.transaction(:rollback=>:always){super} end it "should update the timestamp column when touching the record" do Album.plugin :touch @album.updated_at.must_be_nil @album.touch @album.updated_at.to_i.must_be_close_to Time.now.to_i, 2 end cspecify "should update the timestamp column for many_to_one associated records when the record is updated or destroyed", [:jdbc, :sqlite] do Album.many_to_one :artist Album.plugin :touch, :associations=>:artist @artist.updated_at.must_be_nil @album.update(:name=>'B') ua = @artist.reload.updated_at if ua.is_a?(Time) ua.to_i.must_be_close_to Time.now.to_i, 60 else (DateTime.now - ua).must_be_close_to 0, 60.0/86400 end @artist.update(:updated_at=>nil) @album.destroy if ua.is_a?(Time) ua.to_i.must_be_close_to Time.now.to_i, 60 else (DateTime.now - ua).must_be_close_to 0, 60.0/86400 end end cspecify "should update the timestamp column for one_to_many associated records when the record is updated", [:jdbc, :sqlite] do Artist.one_to_many :albums Artist.plugin :touch, :associations=>:albums @album.updated_at.must_be_nil @artist.update(:name=>'B') ua = @album.reload.updated_at if ua.is_a?(Time) ua.to_i.must_be_close_to Time.now.to_i, 60 else (DateTime.now - ua).must_be_close_to 0, 60.0/86400 end end cspecify "should update the timestamp column for many_to_many associated records when the record is updated", [:jdbc, :sqlite] do Artist.many_to_many :albums Artist.plugin :touch, :associations=>:albums @artist.add_album(@album) @album.updated_at.must_be_nil @artist.update(:name=>'B') ua = @album.reload.updated_at if ua.is_a?(Time) ua.to_i.must_be_close_to Time.now.to_i, 60 else (DateTime.now - ua).must_be_close_to 0, 60.0/86400 end end end describe "Serialization plugin" do before do @db = DB @db.create_table!(:items) do primary_key :id String :stuff end class ::Item < Sequel::Model(@db) plugin :serialization, :marshal, :stuff end end after do @db.drop_table?(:items) Object.send(:remove_const, :Item) end it "should serialize and deserialize items as needed" do i = Item.create(:stuff=>{:a=>1}) i.stuff.must_equal(:a=>1) i.stuff = [1, 2, 3] i.save Item.first.stuff.must_equal [1, 2, 3] i.update(:stuff=>Item.new) Item.first.stuff.must_equal Item.new end end describe "OptimisticLocking plugin" do before(:all) do @db = DB @db.create_table!(:people) do primary_key :id String :name Integer :lock_version, :default=>0, :null=>false end class ::Person < Sequel::Model(@db) plugin :optimistic_locking end end before do @db[:people].delete @p = Person.create(:name=>'John') end after(:all) do @db.drop_table?(:people) Object.send(:remove_const, :Person) end it "should raise an error when updating a stale record" do p1 = Person[@p.id] p2 = Person[@p.id] p1.update(:name=>'Jim') proc{p2.update(:name=>'Bob')}.must_raise(Sequel::Plugins::OptimisticLocking::Error) end it "should raise an error when destroying a stale record" do p1 = Person[@p.id] p2 = Person[@p.id] p1.update(:name=>'Jim') proc{p2.destroy}.must_raise(Sequel::Plugins::OptimisticLocking::Error) end it "should not raise an error when updating the same record twice" do p1 = Person[@p.id] p1.update(:name=>'Jim') p1.update(:name=>'Bob') end end describe "Composition plugin" do before do @db = DB @db.create_table!(:events) do primary_key :id Integer :year Integer :month Integer :day end class ::Event < Sequel::Model(@db) plugin :composition composition :date, :composer=>proc{Date.new(year, month, day) if year && month && day}, :decomposer=>(proc do if date self.year = date.year self.month = date.month self.day = date.day else self.year, self.month, self.day = nil end end) composition :date, :mapping=>[:year, :month, :day] end @e1 = Event.create(:year=>2010, :month=>2, :day=>15) @e2 = Event.create(:year=>nil) end after do @db.drop_table?(:events) Object.send(:remove_const, :Event) end it "should return a composed object if the underlying columns have a value" do @e1.date.must_equal Date.civil(2010, 2, 15) @e2.date.must_be_nil end it "should decompose the object when saving the record" do @e1.date = Date.civil(2009, 1, 2) @e1.save @e1.year.must_equal 2009 @e1.month.must_equal 1 @e1.day.must_equal 2 end it "should save all columns when saving changes" do @e2.date = Date.civil(2009, 10, 2) @e2.save_changes @e2.reload @e2.year.must_equal 2009 @e2.month.must_equal 10 @e2.day.must_equal 2 end end describe "RcteTree Plugin" do RcteTreePluginSpecs = shared_description do it "should load all standard (not-CTE) methods correctly" do @a.children.must_equal [@aa, @ab] @b.children.must_equal [@ba, @bb] @aa.children.must_equal [@aaa, @aab] @ab.children.must_equal [@aba, @abb] @ba.children.must_equal [] @bb.children.must_equal [] @aaa.children.must_equal [@aaaa, @aaab] @aab.children.must_equal [] @aba.children.must_equal [] @abb.children.must_equal [] @aaaa.children.must_equal [@aaaaa] @aaab.children.must_equal [] @aaaaa.children.must_equal [] @a.parent.must_be_nil @b.parent.must_be_nil @aa.parent.must_equal @a @ab.parent.must_equal @a @ba.parent.must_equal @b @bb.parent.must_equal @b @aaa.parent.must_equal @aa @aab.parent.must_equal @aa @aba.parent.must_equal @ab @abb.parent.must_equal @ab @aaaa.parent.must_equal @aaa @aaab.parent.must_equal @aaa @aaaaa.parent.must_equal @aaaa end it "should load all ancestors and descendants lazily for a given instance" do @a.descendants.must_equal [@aa, @aaa, @aaaa, @aaaaa, @aaab, @aab, @ab, @aba, @abb] @b.descendants.must_equal [@ba, @bb] @aa.descendants.must_equal [@aaa, @aaaa, @aaaaa, @aaab, @aab] @ab.descendants.must_equal [@aba, @abb] @ba.descendants.must_equal [] @bb.descendants.must_equal [] @aaa.descendants.must_equal [@aaaa, @aaaaa, @aaab] @aab.descendants.must_equal [] @aba.descendants.must_equal [] @abb.descendants.must_equal [] @aaaa.descendants.must_equal [@aaaaa] @aaab.descendants.must_equal [] @aaaaa.descendants.must_equal [] @a.ancestors.must_equal [] @b.ancestors.must_equal [] @aa.ancestors.must_equal [@a] @ab.ancestors.must_equal [@a] @ba.ancestors.must_equal [@b] @bb.ancestors.must_equal [@b] @aaa.ancestors.must_equal [@a, @aa] @aab.ancestors.must_equal [@a, @aa] @aba.ancestors.must_equal [@a, @ab] @abb.ancestors.must_equal [@a, @ab] @aaaa.ancestors.must_equal [@a, @aa, @aaa] @aaab.ancestors.must_equal [@a, @aa, @aaa] @aaaaa.ancestors.must_equal [@a, @aa, @aaa, @aaaa] end it "should eagerly load all ancestors and descendants for a dataset" do nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:ancestors, :descendants).all nodes.must_equal [@a, @aaa, @b] nodes[0].descendants.must_equal [@aa, @aaa, @aaaa, @aaaaa, @aaab, @aab, @ab, @aba, @abb] nodes[1].descendants.must_equal [@aaaa, @aaaaa, @aaab] nodes[2].descendants.must_equal [@ba, @bb] nodes[0].ancestors.must_equal [] nodes[1].ancestors.must_equal [@a, @aa] nodes[2].ancestors.must_equal [] end it "should eagerly load descendants to a given level" do nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:descendants=>1).all nodes.must_equal [@a, @aaa, @b] nodes[0].descendants.must_equal [@aa, @ab] nodes[1].descendants.must_equal [@aaaa, @aaab] nodes[2].descendants.must_equal [@ba, @bb] nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:descendants=>2).all nodes.must_equal [@a, @aaa, @b] nodes[0].descendants.must_equal [@aa, @aaa, @aab, @ab, @aba, @abb] nodes[1].descendants.must_equal [@aaaa, @aaaaa, @aaab] nodes[2].descendants.must_equal [@ba, @bb] end it "should populate all :children associations when eagerly loading descendants for a dataset" do nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:descendants).all nodes[0].associations[:children].must_equal [@aa, @ab] nodes[1].associations[:children].must_equal [@aaaa, @aaab] nodes[2].associations[:children].must_equal [@ba, @bb] nodes[0].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaa, @aab], [@aba, @abb]] nodes[1].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaaaa], []] nodes[2].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[], []] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[[@aaaa, @aaab], []], [[], []]] nodes[1].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[[]], []] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children].map{|c3| c3.associations[:children]}}}.must_equal [[[[@aaaaa], []], []], [[], []]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children].map{|c3| c3.associations[:children].map{|c4| c4.associations[:children]}}}}.must_equal [[[[[]], []], []], [[], []]] end it "should not populate :children associations for final level when loading descendants to a given level" do nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:descendants=>1).all nodes[0].associations[:children].must_equal [@aa, @ab] nodes[0].associations[:children].map{|c1| c1.associations[:children]}.must_equal [nil, nil] nodes[1].associations[:children].must_equal [@aaaa, @aaab] nodes[1].associations[:children].map{|c1| c1.associations[:children]}.must_equal [nil, nil] nodes[2].associations[:children].must_equal [@ba, @bb] nodes[2].associations[:children].map{|c1| c1.associations[:children]}.must_equal [nil, nil] nodes[0].associations[:children].map{|c1| c1.children}.must_equal [[@aaa, @aab], [@aba, @abb]] nodes[1].associations[:children].map{|c1| c1.children}.must_equal [[@aaaaa], []] nodes[2].associations[:children].map{|c1| c1.children}.must_equal [[], []] nodes = @Node.filter(@Node.primary_key=>[@a.pk, @b.pk, @aaa.pk]).order(:name).eager(:descendants=>2).all nodes[0].associations[:children].must_equal [@aa, @ab] nodes[0].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaa, @aab], [@aba, @abb]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[[@aaaa, @aaab], nil], [nil, nil]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| (cc2 = c2.associations[:children]) ? cc2.map{|c3| c3.associations[:children]} : nil}}.must_equal [[[[@aaaaa], []], nil], [nil, nil]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| (cc2 = c2.associations[:children]) ? cc2.map{|c3| (cc3 = c3.associations[:children]) ? cc3.map{|c4| c4.associations[:children]} : nil} : nil}}.must_equal [[[[nil], []], nil], [nil, nil]] nodes[1].associations[:children].must_equal [@aaaa, @aaab] nodes[1].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaaaa], []] nodes[1].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[nil], []] nodes[2].associations[:children].must_equal [@ba, @bb] nodes[2].associations[:children].map{|c1| c1.associations[:children]}.must_equal [[], []] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.children}}.must_equal [[[@aaaa, @aaab], []], [[], []]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.children.map{|c3| c3.children}}}.must_equal [[[[@aaaaa], []], []], [[], []]] nodes[0].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.children.map{|c3| c3.children.map{|c4| c4.children}}}}.must_equal [[[[[]], []], []], [[], []]] nodes[1].associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.children}}.must_equal [[[]], []] end it "should populate all :children associations when lazily loading descendants" do @a.descendants @a.associations[:children].must_equal [@aa, @ab] @a.associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaa, @aab], [@aba, @abb]] @a.associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[[@aaaa, @aaab], []], [[], []]] @a.associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children].map{|c3| c3.associations[:children]}}}.must_equal [[[[@aaaaa], []], []], [[], []]] @a.associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children].map{|c3| c3.associations[:children].map{|c4| c4.associations[:children]}}}}.must_equal [[[[[]], []], []], [[], []]] @b.descendants @b.associations[:children].must_equal [@ba, @bb] @b.associations[:children].map{|c1| c1.associations[:children]}.must_equal [[], []] @aaa.descendants @aaa.associations[:children].map{|c1| c1.associations[:children]}.must_equal [[@aaaaa], []] @aaa.associations[:children].map{|c1| c1.associations[:children].map{|c2| c2.associations[:children]}}.must_equal [[[]], []] end it "should populate all :parent associations when eagerly loading ancestors for a dataset" do nodes = @Node.filter(@Node.primary_key=>[@a.pk, @ba.pk, @aaa.pk, @aaaaa.pk]).order(:name).eager(:ancestors).all nodes[0].associations.fetch(:parent, 1).must_be_nil nodes[1].associations[:parent].must_equal @aa nodes[1].associations[:parent].associations[:parent].must_equal @a nodes[1].associations[:parent].associations[:parent].associations.fetch(:parent, 1).must_be_nil nodes[2].associations[:parent].must_equal @aaaa nodes[2].associations[:parent].associations[:parent].must_equal @aaa nodes[2].associations[:parent].associations[:parent].associations[:parent].must_equal @aa nodes[2].associations[:parent].associations[:parent].associations[:parent].associations[:parent].must_equal @a nodes[2].associations[:parent].associations[:parent].associations[:parent].associations[:parent].associations.fetch(:parent, 1).must_be_nil nodes[3].associations[:parent].must_equal @b nodes[3].associations[:parent].associations.fetch(:parent, 1).must_be_nil end it "should populate all :parent associations when lazily loading ancestors" do @a.reload @a.ancestors @a.associations[:parent].must_be_nil @ba.reload @ba.ancestors @ba.associations[:parent].must_equal @b @ba.associations[:parent].associations.fetch(:parent, 1).must_be_nil @ba.reload @aaaaa.ancestors @aaaaa.associations[:parent].must_equal @aaaa @aaaaa.associations[:parent].associations[:parent].must_equal @aaa @aaaaa.associations[:parent].associations[:parent].associations[:parent].must_equal @aa @aaaaa.associations[:parent].associations[:parent].associations[:parent].associations[:parent].must_equal @a @aaaaa.associations[:parent].associations[:parent].associations[:parent].associations[:parent].associations.fetch(:parent, 1).must_be_nil end end before do @nodes.each{|n| n.associations.clear} end describe "with single key" do before(:all) do @db = DB @db.create_table!(:nodes) do primary_key :id Integer :parent_id String :name end @Node = Class.new(Sequel::Model(@db[:nodes])) @Node.plugin :rcte_tree, :order=>:name @nodes = [] @nodes << @a = @Node.create(:name=>'a') @nodes << @b = @Node.create(:name=>'b') @nodes << @aa = @Node.create(:name=>'aa', :parent=>@a) @nodes << @ab = @Node.create(:name=>'ab', :parent=>@a) @nodes << @ba = @Node.create(:name=>'ba', :parent=>@b) @nodes << @bb = @Node.create(:name=>'bb', :parent=>@b) @nodes << @aaa = @Node.create(:name=>'aaa', :parent=>@aa) @nodes << @aab = @Node.create(:name=>'aab', :parent=>@aa) @nodes << @aba = @Node.create(:name=>'aba', :parent=>@ab) @nodes << @abb = @Node.create(:name=>'abb', :parent=>@ab) @nodes << @aaaa = @Node.create(:name=>'aaaa', :parent=>@aaa) @nodes << @aaab = @Node.create(:name=>'aaab', :parent=>@aaa) @nodes << @aaaaa = @Node.create(:name=>'aaaaa', :parent=>@aaaa) end after(:all) do @db.drop_table? :nodes end include RcteTreePluginSpecs it "should work correctly if not all columns are selected" do c = Class.new(Sequel::Model(@db[:nodes])) c.plugin :rcte_tree, :order=>:name c.plugin :lazy_attributes, :name c[:name=>'aaaa'].descendants.must_equal [c.load(:parent_id=>11, :id=>13)] c[:name=>'aa'].ancestors.must_equal [c.load(:parent_id=>nil, :id=>1)] nodes = c.filter(:id=>[@a.id, @b.id, @aaa.id]).order(:name).eager(:ancestors, :descendants).all nodes.must_equal [{:parent_id=>nil, :id=>1}, {:parent_id=>3, :id=>7}, {:parent_id=>nil, :id=>2}].map{|x| c.load(x)} nodes[2].descendants.must_equal [{:parent_id=>2, :id=>5}, {:parent_id=>2, :id=>6}].map{|x| c.load(x)} nodes[1].ancestors.must_equal [{:parent_id=>nil, :id=>1}, {:parent_id=>1, :id=>3}].map{|x| c.load(x)} end end describe "with composite keys" do before(:all) do @db = DB @db.create_table!(:nodes) do Integer :id Integer :id2 Integer :parent_id Integer :parent_id2 String :name primary_key [:id, :id2] end @Node = Class.new(Sequel::Model(@db[:nodes])) @Node.plugin :rcte_tree, :order=>:name, :key=>[:parent_id, :parent_id2] @Node.unrestrict_primary_key @nodes = [] @nodes << @a = @Node.create(:id=>1, :id2=>1, :name=>'a') @nodes << @b = @Node.create(:id=>1, :id2=>2, :name=>'b') @nodes << @aa = @Node.create(:id=>2, :id2=>1, :name=>'aa', :parent=>@a) @nodes << @ab = @Node.create(:id=>2, :id2=>2, :name=>'ab', :parent=>@a) @nodes << @ba = @Node.create(:id=>3, :id2=>1, :name=>'ba', :parent=>@b) @nodes << @bb = @Node.create(:id=>3, :id2=>2, :name=>'bb', :parent=>@b) @nodes << @aaa = @Node.create(:id=>3, :id2=>3, :name=>'aaa', :parent=>@aa) @nodes << @aab = @Node.create(:id=>1, :id2=>3, :name=>'aab', :parent=>@aa) @nodes << @aba = @Node.create(:id=>2, :id2=>3, :name=>'aba', :parent=>@ab) @nodes << @abb = @Node.create(:id=>4, :id2=>1, :name=>'abb', :parent=>@ab) @nodes << @aaaa = @Node.create(:id=>1, :id2=>4, :name=>'aaaa', :parent=>@aaa) @nodes << @aaab = @Node.create(:id=>2, :id2=>4, :name=>'aaab', :parent=>@aaa) @nodes << @aaaaa = @Node.create(:id=>3, :id2=>4, :name=>'aaaaa', :parent=>@aaaa) end after(:all) do @db.drop_table? :nodes end include RcteTreePluginSpecs end end if DB.dataset.supports_cte? and !Sequel.guarded?(:db2) describe "Instance Filters plugin" do before(:all) do @db = DB @db.create_table!(:items) do primary_key :id String :name Integer :cost Integer :number end class ::Item < Sequel::Model(@db) plugin :instance_filters end end before do @db[:items].delete @i = Item.create(:name=>'J', :number=>1, :cost=>2) @i.instance_filter(:number=>1) @i.set(:name=>'K') end after(:all) do @db.drop_table?(:items) Object.send(:remove_const, :Item) end it "should not raise an error if saving only updates one row" do @i.save @i.refresh.name.must_equal 'K' end it "should raise error if saving doesn't update a row" do @i.this.update(:number=>2) proc{@i.save}.must_raise(Sequel::NoExistingObject) end it "should apply all instance filters" do @i.instance_filter{cost <= 2} @i.this.update(:number=>2) proc{@i.save}.must_raise(Sequel::NoExistingObject) @i.this.update(:number=>1, :cost=>3) proc{@i.save}.must_raise(Sequel::NoExistingObject) @i.this.update(:cost=>2) @i.save @i.refresh.name.must_equal 'K' end it "should clear instance filters after successful save" do @i.save @i.this.update(:number=>2) @i.update(:name=>'L') @i.refresh.name.must_equal 'L' end it "should not raise an error if deleting only deletes one row" do @i.destroy proc{@i.refresh}.must_raise(Sequel::Error, 'Record not found') end it "should raise error if destroying doesn't delete a row" do @i.this.update(:number=>2) proc{@i.destroy}.must_raise(Sequel::NoExistingObject) end end describe "UpdatePrimaryKey plugin" do before(:all) do @db = DB @db.create_table!(:t) do Integer :a, :primary_key=>true Integer :b end @ds = @db[:t] @c = Class.new(Sequel::Model(@ds)) @c.set_primary_key(:a) @c.unrestrict_primary_key @c.plugin :update_primary_key end before do @ds.delete @ds.insert(:a=>1, :b=>3) end after(:all) do @db.drop_table?(:t) end it "should handle regular updates" do @c.first.update(:b=>4) @db[:t].all.must_equal [{:a=>1, :b=>4}] @c.first.set(:b=>5).save @db[:t].all.must_equal [{:a=>1, :b=>5}] @c.first.set(:b=>6).save(:columns=>:b) @db[:t].all.must_equal [{:a=>1, :b=>6}] end it "should handle updating the primary key field with another field" do @c.first.update(:a=>2, :b=>4) @db[:t].all.must_equal [{:a=>2, :b=>4}] end it "should handle updating just the primary key field when saving changes" do @c.first.update(:a=>2) @db[:t].all.must_equal [{:a=>2, :b=>3}] @c.first.set(:a=>3).save(:columns=>:a) @db[:t].all.must_equal [{:a=>3, :b=>3}] end it "should handle saving after modifying the primary key field with another field" do @c.first.set(:a=>2, :b=>4).save @db[:t].all.must_equal [{:a=>2, :b=>4}] end it "should handle saving after modifying just the primary key field" do @c.first.set(:a=>2).save @db[:t].all.must_equal [{:a=>2, :b=>3}] end it "should handle saving after updating the primary key" do @c.first.update(:a=>2).update(:b=>4).set(:b=>5).save @db[:t].all.must_equal [{:a=>2, :b=>5}] end end describe "AssociationPks plugin" do before(:all) do @db = DB @db.drop_table?(:albums_tags, :albums_vocalists, :vocalists_instruments, :vocalists_hits, :hits, :instruments, :vocalists, :tags, :albums, :artists) @db.create_table(:artists) do primary_key :id String :name end @db.create_table(:albums) do primary_key :id String :name foreign_key :artist_id, :artists end @db.create_table(:tags) do primary_key :id String :name end @db.create_table(:albums_tags) do foreign_key :album_id, :albums foreign_key :tag_id, :tags end @db.create_table(:vocalists) do String :first String :last primary_key [:first, :last] foreign_key :album_id, :albums end @db.create_table(:albums_vocalists) do foreign_key :album_id, :albums String :first String :last foreign_key [:first, :last], :vocalists end @db.create_table(:instruments) do primary_key :id String :first String :last foreign_key [:first, :last], :vocalists end @db.create_table(:vocalists_instruments) do String :first String :last foreign_key [:first, :last], :vocalists foreign_key :instrument_id, :instruments end @db.create_table(:hits) do Integer :year Integer :week primary_key [:year, :week] String :first String :last foreign_key [:first, :last], :vocalists end @db.create_table(:vocalists_hits) do String :first String :last foreign_key [:first, :last], :vocalists Integer :year Integer :week foreign_key [:year, :week], :hits end class ::Artist < Sequel::Model plugin :association_pks one_to_many :albums, :order=>:id, :delay_pks=>false end class ::Album < Sequel::Model plugin :association_pks many_to_many :tags, :order=>:id, :delay_pks=>false many_to_many :uat_tags, :order=>Sequel[:tags][:id], :delay_pks=>false, :class=>:Tag, :right_key=>:tag_id, :association_pks_use_associated_table=>true end class ::Tag < Sequel::Model end class ::Vocalist < Sequel::Model set_primary_key [:first, :last] plugin :association_pks end class ::Instrument < Sequel::Model plugin :association_pks end class ::Hit < Sequel::Model set_primary_key [:year, :week] end end before do [:albums_tags, :albums_vocalists, :vocalists_instruments, :vocalists_hits, :hits, :instruments, :vocalists, :tags, :albums, :artists].each{|t| @db[t].delete} @ar1 =@db[:artists].insert(:name=>'YJM') @ar2 =@db[:artists].insert(:name=>'AS') @al1 =@db[:albums].insert(:name=>'RF', :artist_id=>@ar1) @al2 =@db[:albums].insert(:name=>'MO', :artist_id=>@ar1) @al3 =@db[:albums].insert(:name=>'T', :artist_id=>@ar1) @t1 = @db[:tags].insert(:name=>'A') @t2 = @db[:tags].insert(:name=>'B') @t3 = @db[:tags].insert(:name=>'C') {@al1=>[@t1, @t2, @t3], @al2=>[@t2]}.each do |aid, tids| tids.each{|tid| @db[:albums_tags].insert([aid, tid])} end @v1 = ['F1', 'L1'] @v2 = ['F2', 'L2'] @v3 = ['F3', 'L3'] @db[:vocalists].insert(@v1 + [@al1]) @db[:vocalists].insert(@v2 + [@al1]) @db[:vocalists].insert(@v3 + [@al1]) @i1 = @db[:instruments].insert([:first, :last], @v1) @i2 = @db[:instruments].insert([:first, :last], @v1) @i3 = @db[:instruments].insert([:first, :last], @v1) @h1 = [1997, 1] @h2 = [1997, 2] @h3 = [1997, 3] @db[:hits].insert(@h1 + @v1) @db[:hits].insert(@h2 + @v1) @db[:hits].insert(@h3 + @v1) {@al1=>[@v1, @v2, @v3], @al2=>[@v2]}.each do |aid, vids| vids.each{|vid| @db[:albums_vocalists].insert([aid] + vid)} end {@v1=>[@i1, @i2, @i3], @v2=>[@i2]}.each do |vid, iids| iids.each{|iid| @db[:vocalists_instruments].insert(vid + [iid])} end {@v1=>[@h1, @h2, @h3], @v2=>[@h2]}.each do |vid, hids| hids.each{|hid| @db[:vocalists_hits].insert(vid + hid)} end end after(:all) do @db.drop_table? :albums_tags, :albums_vocalists, :vocalists_instruments, :vocalists_hits, :hits, :instruments, :vocalists, :tags, :albums, :artists [:Artist, :Album, :Tag, :Vocalist, :Instrument, :Hit].each{|s| Object.send(:remove_const, s)} end it "should return correct associated pks for one_to_many associations" do Artist.order(:id).all.map{|a| a.album_pks}.must_equal [[@al1, @al2, @al3], []] end it "should return correct associated pks for many_to_many associations" do Album.order(:id).all.map{|a| a.tag_pks.sort}.must_equal [[@t1, @t2, @t3], [@t2], []] end it "should return correct associated pks for many_to_many associations using :association_pks_use_associated_table" do Album.order(:id).all.map{|a| a.uat_tag_pks.sort}.must_equal [[@t1, @t2, @t3], [@t2], []] end it "should return correct associated right-side cpks for one_to_many associations" do Album.one_to_many :vocalists, :order=>:first Album.order(:id).all.map{|a| a.vocalist_pks.sort}.must_equal [[@v1, @v2, @v3], [], []] end it "should return correct associated right-side cpks for many_to_many associations" do Album.many_to_many :vocalists, :join_table=>:albums_vocalists, :right_key=>[:first, :last], :order=>:first Album.order(:id).all.map{|a| a.vocalist_pks.sort}.must_equal [[@v1, @v2, @v3], [@v2], []] end it "should return correct associated right-side cpks for many_to_many associations when using :association_pks_use_associated_table" do Album.many_to_many :vocalists, :join_table=>:albums_vocalists, :right_key=>[:first, :last], :order=>Sequel[:vocalists][:first], :association_pks_use_associated_table=>true Album.order(:id).all.map{|a| a.vocalist_pks.sort}.must_equal [[@v1, @v2, @v3], [@v2], []] end it "should return correct associated pks for left-side cpks for one_to_many associations" do Vocalist.one_to_many :instruments, :key=>[:first, :last], :order=>:id Vocalist.order(:first, :last).all.map{|a| a.instrument_pks.sort}.must_equal [[@i1, @i2, @i3], [], []] end it "should return correct associated pks for left-side cpks for many_to_many associations" do Vocalist.many_to_many :instruments, :join_table=>:vocalists_instruments, :left_key=>[:first, :last], :order=>:id Vocalist.order(:first, :last).all.map{|a| a.instrument_pks.sort}.must_equal [[@i1, @i2, @i3], [@i2], []] end it "should return correct associated pks for left-side cpks for many_to_many associations when using :association_pks_use_associated_table" do Vocalist.many_to_many :instruments, :join_table=>:vocalists_instruments, :left_key=>[:first, :last], :order=>:id, :association_pks_use_associated_table=>true Vocalist.order(:first, :last).all.map{|a| a.instrument_pks.sort}.must_equal [[@i1, @i2, @i3], [@i2], []] end it "should return correct associated right-side cpks for left-side cpks for one_to_many associations" do Vocalist.one_to_many :hits, :key=>[:first, :last], :order=>:week Vocalist.order(:first, :last).all.map{|a| a.hit_pks.sort}.must_equal [[@h1, @h2, @h3], [], []] end it "should return correct associated right-side cpks for left-side cpks for many_to_many associations" do Vocalist.many_to_many :hits, :join_table=>:vocalists_hits, :left_key=>[:first, :last], :right_key=>[:year, :week], :order=>:week Vocalist.order(:first, :last).all.map{|a| a.hit_pks.sort}.must_equal [[@h1, @h2, @h3], [@h2], []] end it "should return correct associated right-side cpks for left-side cpks for many_to_many associations when using :association_pks_use_associated_table" do Vocalist.many_to_many :hits, :join_table=>:vocalists_hits, :left_key=>[:first, :last], :right_key=>[:year, :week], :order=>Sequel[:vocalists_hits][:week], :association_pks_use_associated_table=>true Vocalist.order(:first, :last).all.map{|a| a.hit_pks.sort}.must_equal [[@h1, @h2, @h3], [@h2], []] end it "should default to delaying association_pks setter method changes until saving" do album_class = Class.new(Album) album_class.many_to_many :tags, :clone=>:tags, :delay_pks=>true, :join_table=>:albums_tags, :left_key=>:album_id album = album_class.with_pk!(@al1) album.tag_pks.sort.must_equal [@t1, @t2, @t3] album.tag_pks = [@t1, @t2] album.tag_pks.must_equal [@t1, @t2] album.save_changes album_class.with_pk!(album.pk).tag_pks.sort.must_equal [@t1, @t2] album.tag_pks = [] album.tag_pks.must_equal [] album.save_changes album_class.with_pk!(album.pk).tag_pks.sort.must_equal [] end it "should set associated pks correctly for a one_to_many association" do Artist.use_transactions = true Album.order(:id).select_map(:artist_id).must_equal [@ar1, @ar1, @ar1] Artist[@ar2].album_pks = [@al1, @al3] Artist[@ar1].album_pks.must_equal [@al2] Album.order(:id).select_map(:artist_id).must_equal [@ar2, @ar1, @ar2] Artist[@ar1].album_pks = [@al1] Artist[@ar2].album_pks.must_equal [@al3] Album.order(:id).select_map(:artist_id).must_equal [@ar1, nil, @ar2] Artist[@ar1].album_pks = [@al1, @al2] Artist[@ar2].album_pks.must_equal [@al3] Album.order(:id).select_map(:artist_id).must_equal [@ar1, @ar1, @ar2] Artist[@ar1].album_pks = [] Album.order(:id).select_map(:artist_id).must_equal [nil, nil, @ar2] end it "should set associated pks correctly for a many_to_many association" do Artist.use_transactions = true @db[:albums_tags].filter(:album_id=>@al1).select_order_map(:tag_id).must_equal [@t1, @t2, @t3] Album[@al1].tag_pks = [@t1, @t3] @db[:albums_tags].filter(:album_id=>@al1).select_order_map(:tag_id).must_equal [@t1, @t3] Album[@al1].tag_pks = [] @db[:albums_tags].filter(:album_id=>@al1).select_order_map(:tag_id).must_equal [] @db[:albums_tags].filter(:album_id=>@al2).select_order_map(:tag_id).must_equal [@t2] Album[@al2].tag_pks = [@t1, @t2] @db[:albums_tags].filter(:album_id=>@al2).select_order_map(:tag_id).must_equal [@t1, @t2] Album[@al2].tag_pks = [] @db[:albums_tags].filter(:album_id=>@al1).select_order_map(:tag_id).must_equal [] @db[:albums_tags].filter(:album_id=>@al3).select_order_map(:tag_id).must_equal [] Album[@al3].tag_pks = [@t1, @t3] @db[:albums_tags].filter(:album_id=>@al3).select_order_map(:tag_id).must_equal [@t1, @t3] Album[@al3].tag_pks = [] @db[:albums_tags].filter(:album_id=>@al1).select_order_map(:tag_id).must_equal [] end it "should set associated right-side cpks correctly for a one_to_many association" do Album.use_transactions = true Album.one_to_many :vocalists, :order=>:first, :delay_pks=>false Album.order(:id).all.map{|a| a.vocalist_pks.sort}.must_equal [[@v1, @v2, @v3], [], []] Album[@al2].vocalist_pks = [@v1, @v3] Album[@al1].vocalist_pks.must_equal [@v2] Vocalist.order(:first, :last).select_map(:album_id).must_equal [@al2, @al1, @al2] Album[@al1].vocalist_pks = [@v1] Album[@al2].vocalist_pks.must_equal [@v3] Vocalist.order(:first, :last).select_map(:album_id).must_equal [@al1, nil, @al2] Album[@al1].vocalist_pks = [@v1, @v2] Album[@al2].vocalist_pks.must_equal [@v3] Vocalist.order(:first, :last).select_map(:album_id).must_equal [@al1, @al1, @al2] Album[@al1].vocalist_pks = [] Vocalist.order(:first, :last).select_map(:album_id).must_equal [nil, nil, @al2] end it "should set associated right-side cpks correctly for a many_to_many association" do Album.use_transactions = true Album.many_to_many :vocalists, :join_table=>:albums_vocalists, :right_key=>[:first, :last], :order=>:first, :delay_pks=>false @db[:albums_vocalists].filter(:album_id=>@al1).select_order_map([:first, :last]).must_equal [@v1, @v2, @v3] Album[@al1].vocalist_pks = [@v1, @v3] @db[:albums_vocalists].filter(:album_id=>@al1).select_order_map([:first, :last]).must_equal [@v1, @v3] Album[@al1].vocalist_pks = [] @db[:albums_vocalists].filter(:album_id=>@al1).select_order_map([:first, :last]).must_equal [] @db[:albums_vocalists].filter(:album_id=>@al2).select_order_map([:first, :last]).must_equal [@v2] Album[@al2].vocalist_pks = [@v1, @v2] @db[:albums_vocalists].filter(:album_id=>@al2).select_order_map([:first, :last]).must_equal [@v1, @v2] Album[@al2].vocalist_pks = [] @db[:albums_vocalists].filter(:album_id=>@al1).select_order_map([:first, :last]).must_equal [] @db[:albums_vocalists].filter(:album_id=>@al3).select_order_map([:first, :last]).must_equal [] Album[@al3].vocalist_pks = [@v1, @v3] @db[:albums_vocalists].filter(:album_id=>@al3).select_order_map([:first, :last]).must_equal [@v1, @v3] Album[@al3].vocalist_pks = [] @db[:albums_vocalists].filter(:album_id=>@al1).select_order_map([:first, :last]).must_equal [] end it "should set associated pks correctly with left-side cpks for a one_to_many association" do Vocalist.use_transactions = true Vocalist.one_to_many :instruments, :key=>[:first, :last], :order=>:id, :delay_pks=>false Vocalist.order(:first, :last).all.map{|a| a.instrument_pks.sort}.must_equal [[@i1, @i2, @i3], [], []] Vocalist[@v2].instrument_pks = [@i1, @i3] Vocalist[@v1].instrument_pks.must_equal [@i2] Instrument.order(:id).select_map([:first, :last]).must_equal [@v2, @v1, @v2] Vocalist[@v1].instrument_pks = [@i1] Vocalist[@v2].instrument_pks.must_equal [@i3] Instrument.order(:id).select_map([:first, :last]).must_equal [@v1, [nil, nil], @v2] Vocalist[@v1].instrument_pks = [@i1, @i2] Vocalist[@v2].instrument_pks.must_equal [@i3] Instrument.order(:id).select_map([:first, :last]).must_equal [@v1, @v1, @v2] Vocalist[@v1].instrument_pks = [] Instrument.order(:id).select_map([:first, :last]).must_equal [[nil, nil], [nil, nil], @v2] end it "should set associated pks correctly with left-side cpks for a many_to_many association" do Vocalist.use_transactions = true Vocalist.many_to_many :instruments, :join_table=>:vocalists_instruments, :left_key=>[:first, :last], :order=>:id, :delay_pks=>false @db[:vocalists_instruments].filter([:first, :last]=>[@v1]).select_order_map(:instrument_id).must_equal [@i1, @i2, @i3] Vocalist[@v1].instrument_pks = [@i1, @i3] @db[:vocalists_instruments].filter([:first, :last]=>[@v1]).select_order_map(:instrument_id).must_equal [@i1, @i3] Vocalist[@v1].instrument_pks = [] @db[:vocalists_instruments].filter([:first, :last]=>[@v1]).select_order_map(:instrument_id).must_equal [] @db[:vocalists_instruments].filter([:first, :last]=>[@v2]).select_order_map(:instrument_id).must_equal [@i2] Vocalist[@v2].instrument_pks = [@i1, @i2] @db[:vocalists_instruments].filter([:first, :last]=>[@v2]).select_order_map(:instrument_id).must_equal [@i1, @i2] Vocalist[@v2].instrument_pks = [] @db[:vocalists_instruments].filter([:first, :last]=>[@v1]).select_order_map(:instrument_id).must_equal [] @db[:vocalists_instruments].filter([:first, :last]=>[@v3]).select_order_map(:instrument_id).must_equal [] Vocalist[@v3].instrument_pks = [@i1, @i3] @db[:vocalists_instruments].filter([:first, :last]=>[@v3]).select_order_map(:instrument_id).must_equal [@i1, @i3] Vocalist[@v3].instrument_pks = [] @db[:vocalists_instruments].filter([:first, :last]=>[@v1]).select_order_map(:instrument_id).must_equal [] end it "should set associated right-side cpks correctly with left-side cpks for a one_to_many association" do Vocalist.use_transactions = true Vocalist.one_to_many :hits, :key=>[:first, :last], :order=>:week, :delay_pks=>false Vocalist.order(:first, :last).all.map{|a| a.hit_pks.sort}.must_equal [[@h1, @h2, @h3], [], []] Vocalist[@v2].hit_pks = [@h1, @h3] Vocalist[@v1].hit_pks.must_equal [@h2] Hit.order(:year, :week).select_map([:first, :last]).must_equal [@v2, @v1, @v2] Vocalist[@v1].hit_pks = [@h1] Vocalist[@v2].hit_pks.must_equal [@h3] Hit.order(:year, :week).select_map([:first, :last]).must_equal [@v1, [nil, nil], @v2] Vocalist[@v1].hit_pks = [@h1, @h2] Vocalist[@v2].hit_pks.must_equal [@h3] Hit.order(:year, :week).select_map([:first, :last]).must_equal [@v1, @v1, @v2] Vocalist[@v1].hit_pks = [] Hit.order(:year, :week).select_map([:first, :last]).must_equal [[nil, nil], [nil, nil], @v2] end it "should set associated right-side cpks correctly with left-side cpks for a many_to_many association" do Vocalist.use_transactions = true Vocalist.many_to_many :hits, :join_table=>:vocalists_hits, :left_key=>[:first, :last], :right_key=>[:year, :week], :order=>:week, :delay_pks=>false @db[:vocalists_hits].filter([:first, :last]=>[@v1]).select_order_map([:year, :week]).must_equal [@h1, @h2, @h3] Vocalist[@v1].hit_pks = [@h1, @h3] @db[:vocalists_hits].filter([:first, :last]=>[@v1]).select_order_map([:year, :week]).must_equal [@h1, @h3] Vocalist[@v1].hit_pks = [] @db[:vocalists_hits].filter([:first, :last]=>[@v1]).select_order_map([:year, :week]).must_equal [] @db[:vocalists_hits].filter([:first, :last]=>[@v2]).select_order_map([:year, :week]).must_equal [@h2] Vocalist[@v2].hit_pks = [@h1, @h2] @db[:vocalists_hits].filter([:first, :last]=>[@v2]).select_order_map([:year, :week]).must_equal [@h1, @h2] Vocalist[@v2].hit_pks = [] @db[:vocalists_hits].filter([:first, :last]=>[@v1]).select_order_map([:year, :week]).must_equal [] @db[:vocalists_hits].filter([:first, :last]=>[@v3]).select_order_map([:year, :week]).must_equal [] Vocalist[@v3].hit_pks = [@h1, @h3] @db[:vocalists_hits].filter([:first, :last]=>[@v3]).select_order_map([:year, :week]).must_equal [@h1, @h3] Vocalist[@v3].hit_pks = [] @db[:vocalists_hits].filter([:first, :last]=>[@v1]).select_order_map([:year, :week]).must_equal [] end end describe "List plugin without a scope" do before(:all) do @db = DB @db.create_table!(:sites) do primary_key :id String :name Integer :position end @c = Class.new(Sequel::Model(@db[:sites])) @c.plugin :list end before do @c.dataset.delete @c.create :name => "abc" @c.create :name => "def" @c.create :name => "hig" end after(:all) do @db.drop_table?(:sites) end it "should return rows in order of position" do @c.map(:position).must_equal [1,2,3] @c.map(:name).must_equal %w[ abc def hig ] end it "should define prev and next" do i = @c[:name => "abc"] i.prev.must_be_nil i = @c[:name => "def"] i.prev.must_equal @c[:name => "abc"] i.next.must_equal @c[:name => "hig"] i = @c[:name => "hig"] i.next.must_be_nil end it "should define move_to" do @c[:name => "def"].move_to(1) @c.map(:name).must_equal %w[ def abc hig ] @c[:name => "abc"].move_to(3) @c.map(:name).must_equal %w[ def hig abc ] @c[:name => "abc"].move_to(-1) @c.map(:name).must_equal %w[ abc def hig ] @c[:name => "abc"].move_to(10) @c.map(:name).must_equal %w[ def hig abc ] end it "should define move_to_top and move_to_bottom" do @c[:name => "def"].move_to_top @c.map(:name).must_equal %w[ def abc hig ] @c[:name => "def"].move_to_bottom @c.map(:name).must_equal %w[ abc hig def ] end it "should define move_up and move_down" do @c[:name => "def"].move_up @c.map(:name).must_equal %w[ def abc hig ] @c[:name => "abc"].move_down @c.map(:name).must_equal %w[ def hig abc ] @c[:name => "abc"].move_up(2) @c.map(:name).must_equal %w[ abc def hig ] @c[:name => "abc"].move_down(2) @c.map(:name).must_equal %w[ def hig abc ] @c[:name => "abc"].move_up(10) @c.map(:name).must_equal %w[ abc def hig ] @c[:name => "abc"].move_down(10) @c.map(:name).must_equal %w[ def hig abc ] end it "should update positions on destroy" do @c[:name => "def"].destroy @c.select_map([:position, :name]).must_equal [[1, 'abc'], [2, 'hig']] end end describe "List plugin with a scope" do before(:all) do @db = DB @db.create_table!(:pages) do primary_key :id String :name Integer :pos Integer :parent_id end @c = Class.new(Sequel::Model(@db[:pages])) @c.plugin :list, :field => :pos, :scope => :parent_id end before do @c.dataset.delete p1 = @c.create :name => "Hm", :parent_id => 0 p2 = @c.create :name => "Ps", :parent_id => p1.id @c.create :name => "P1", :parent_id => p2.id @c.create :name => "P2", :parent_id => p2.id @c.create :name => "P3", :parent_id => p2.id @c.create :name => "Au", :parent_id => p1.id end after(:all) do @db.drop_table?(:pages) end it "should return rows in order of position" do @c.map(:name).must_equal %w[ Hm Ps Au P1 P2 P3 ] end it "should define prev and next" do @c[:name => "Ps"].next.name.must_equal 'Au' @c[:name => "Au"].prev.name.must_equal 'Ps' @c[:name => "P1"].next.name.must_equal 'P2' @c[:name => "P2"].prev.name.must_equal 'P1' @c[:name => "P1"].next(2).name.must_equal 'P3' @c[:name => "P2"].next(-1).name.must_equal 'P1' @c[:name => "P3"].prev(2).name.must_equal 'P1' @c[:name => "P2"].prev(-1).name.must_equal 'P3' @c[:name => "Ps"].prev.must_be_nil @c[:name => "Au"].next.must_be_nil @c[:name => "P1"].prev.must_be_nil @c[:name => "P3"].next.must_be_nil end it "should define move_to" do @c[:name => "P2"].move_to(1) @c.map(:name).must_equal %w[ Hm Ps Au P2 P1 P3 ] @c[:name => "P2"].move_to(3) @c.map(:name).must_equal %w[ Hm Ps Au P1 P3 P2 ] @c[:name => "P2"].move_to(-1) @c.map(:name).must_equal %w[ Hm Ps Au P2 P1 P3 ] @c[:name => "P2"].move_to(10) @c.map(:name).must_equal %w[ Hm Ps Au P1 P3 P2 ] end it "should define move_to_top and move_to_bottom" do @c[:name => "Au"].move_to_top @c.map(:name).must_equal %w[ Hm Au Ps P1 P2 P3 ] @c[:name => "Au"].move_to_bottom @c.map(:name).must_equal %w[ Hm Ps Au P1 P2 P3 ] end it "should define move_up and move_down" do @c[:name => "P2"].move_up @c.map(:name).must_equal %w[ Hm Ps Au P2 P1 P3 ] @c[:name => "P1"].move_down @c.map(:name).must_equal %w[ Hm Ps Au P2 P3 P1 ] @c[:name => "P1"].move_up(10) @c.map(:name).must_equal %w[ Hm Ps Au P1 P2 P3 ] @c[:name => "P1"].move_down(10) @c.map(:name).must_equal %w[ Hm Ps Au P2 P3 P1 ] end it "should update positions on destroy" do @c[:name => "P2"].destroy @c.select_order_map([:pos, :name]).must_equal [[1, "Hm"], [1, "P1"], [1, "Ps"], [2, "Au"], [2, "P3"]] end end describe "Sequel::Plugins::Tree" do TreePluginSpecs = shared_description do it "should instantiate" do @Node.all.size.must_equal 12 end it "should find all descendants of a node" do @Node.find(:name => 'two').descendants.map{|m| m.name}.must_equal %w'two.one two.two two.three two.two.one' end it "should find all ancestors of a node" do @Node.find(:name => "two.two.one").ancestors.map{|m| m.name}.must_equal %w'two.two two' end it "should find all siblings of a node, excepting self" do @Node.find(:name=>"two.one").siblings.map{|m| m.name}.must_equal %w'two.two two.three' end it "should find all siblings of a node, including self" do @Node.find(:name=>"two.one").self_and_siblings.map{|m| m.name}.must_equal %w'two.one two.two two.three' end it "should find siblings for root nodes" do @Node.find(:name=>'three').self_and_siblings.map{|m| m.name}.must_equal %w'one two three four five' end it "should find correct root for a node" do @Node.find(:name=>"two.two.one").root.name.must_equal 'two' @Node.find(:name=>"three").root.name.must_equal 'three' @Node.find(:name=>"five.one").root.name.must_equal 'five' end it "iterate top-level nodes in order" do @Node.roots_dataset.count.must_equal 5 @Node.roots.map(&:name).must_equal %w'one two three four five' @Node.where(:name=>%w'one two.one').roots_dataset.count.must_equal 1 @Node.where(:name=>%w'one two.one').roots.map(&:name).must_equal %w'one' end it "should have children" do @Node.find(:name=>'one').children.map{|m| m.name}.must_equal %w'one.one one.two' end end describe "with simple key" do before(:all) do @db = DB @db.create_table!(:nodes) do Integer :id, :primary_key=>true String :name Integer :parent_id Integer :position end @nodes = [{:id => 1, :name => 'one', :parent_id => nil, :position => 1}, {:id => 2, :name => 'two', :parent_id => nil, :position => 2}, {:id => 3, :name => 'three', :parent_id => nil, :position => 3}, {:id => 4, :name => "two.one", :parent_id => 2, :position => 1}, {:id => 5, :name => "two.two", :parent_id => 2, :position => 2}, {:id => 6, :name => "two.two.one", :parent_id => 5, :position => 1}, {:id => 7, :name => "one.two", :parent_id => 1, :position => 2}, {:id => 8, :name => "one.one", :parent_id => 1, :position => 1}, {:id => 9, :name => "five", :parent_id => nil, :position => 5}, {:id => 10, :name => "four", :parent_id => nil, :position => 4}, {:id => 11, :name => "five.one", :parent_id => 9, :position => 1}, {:id => 12, :name => "two.three", :parent_id => 2, :position => 3}] @nodes.each{|node| @db[:nodes].insert(node)} @Node = Class.new(Sequel::Model(:nodes)) @Node.plugin :tree, :order=>:position end after(:all) do @db.drop_table?(:nodes) end include TreePluginSpecs end describe "with composite key" do before(:all) do @db = DB @db.create_table!(:nodes) do Integer :id Integer :id2 String :name Integer :parent_id Integer :parent_id2 Integer :position primary_key [:id, :id2] end @nodes = [{:id => 1, :id2=> 1, :name => 'one', :parent_id => nil, :parent_id2 => nil, :position => 1}, {:id => 2, :id2=> 1, :name => 'two', :parent_id => nil, :parent_id2 => nil, :position => 2}, {:id => 1, :id2=> 2, :name => 'three', :parent_id => nil, :parent_id2 => nil, :position => 3}, {:id => 2, :id2=> 2, :name => "two.one", :parent_id => 2, :parent_id2 => 1, :position => 1}, {:id => 3, :id2=> 1, :name => "two.two", :parent_id => 2, :parent_id2 => 1, :position => 2}, {:id => 3, :id2=> 2, :name => "two.two.one", :parent_id => 3, :parent_id2 => 1, :position => 1}, {:id => 3, :id2=> 3, :name => "one.two", :parent_id => 1, :parent_id2 => 1, :position => 2}, {:id => 1, :id2=> 3, :name => "one.one", :parent_id => 1, :parent_id2 => 1, :position => 1}, {:id => 2, :id2=> 3, :name => "five", :parent_id => nil, :parent_id2 => nil, :position => 5}, {:id => 4, :id2=> 1, :name => "four", :parent_id => nil, :parent_id2 => nil, :position => 4}, {:id => 1, :id2=> 4, :name => "five.one", :parent_id => 2, :parent_id2 => 3, :position => 1}, {:id => 2, :id2=> 4, :name => "two.three", :parent_id => 2, :parent_id2 => 1, :position => 3}] @nodes.each{|node| @db[:nodes].insert(node)} @Node = Class.new(Sequel::Model(:nodes)) @Node.plugin :tree, :order=>:position, :key=>[:parent_id, :parent_id2] end after(:all) do @db.drop_table?(:nodes) end include TreePluginSpecs end end describe "Sequel::Plugins::UpdateRefresh" do before(:all) do @db = DB @db.create_table!(:tests) do primary_key :id String :name Integer :i end @c = Class.new(Sequel::Model(@db[:tests])) @c.plugin :update_refresh end before do @c.dataset.delete @foo = @c.create(:name=>'foo', :i=>10) end after(:all) do @db.drop_table?(:tests) end it "should refresh when updating" do @foo.this.update(:i=>20) @foo.update(:name=>'bar') @foo.name.must_equal 'bar' @foo.i.must_equal 20 end end describe "Sequel::Plugins::PreparedStatements" do before(:all) do @db = DB @db.create_table!(:ps_test) do primary_key :id String :name Integer :i end @c = Class.new(Sequel::Model(@db[:ps_test])) end before do @c.dataset.delete @foo = @c.create(:name=>'foo', :i=>10) @bar = @c.create(:name=>'bar', :i=>20) end after(:all) do @db.drop_table?(:ps_test) end it "should work with looking up using Model.[]" do @c[@foo.id].must_equal @foo @c[@bar.id].must_equal @bar @c[0].must_be_nil @c[nil].must_be_nil end it "should work with looking up using Dataset#with_pk" do @c.dataset.with_pk(@foo.id).must_equal @foo @c.dataset.with_pk(@bar.id).must_equal @bar @c.dataset.with_pk(0).must_be_nil @c.dataset.with_pk(nil).must_be_nil @c.dataset.filter(:i=>0).with_pk(@foo.id).must_be_nil @c.dataset.filter(:i=>10).with_pk(@foo.id).must_equal @foo @c.dataset.filter(:i=>20).with_pk(@bar.id).must_equal @bar @c.dataset.filter(:i=>10).with_pk(nil).must_be_nil @c.dataset.filter(:name=>'foo').with_pk(@foo.id).must_equal @foo @c.dataset.filter(:name=>'bar').with_pk(@bar.id).must_equal @bar @c.dataset.filter(:name=>'baz').with_pk(@bar.id).must_be_nil @c.dataset.filter(:name=>'bar').with_pk(nil).must_be_nil end it "should work with Model#destroy" do @foo.destroy @bar.destroy @c[@foo.id].must_be_nil @c[@bar.id].must_be_nil end it "should work with Model#update" do @foo.update(:name=>'foo2', :i=>30) @c[@foo.id].must_equal @c.load(:id=>@foo.id, :name=>'foo2', :i=>30) @foo.update(:name=>'foo3') @c[@foo.id].must_equal @c.load(:id=>@foo.id, :name=>'foo3', :i=>30) @foo.update(:i=>40) @c[@foo.id].must_equal @c.load(:id=>@foo.id, :name=>'foo3', :i=>40) @foo.update(:i=>nil) @c[@foo.id].must_equal @c.load(:id=>@foo.id, :name=>'foo3', :i=>nil) end it "should work with Model#create" do o = @c.create(:name=>'foo2', :i=>30) @c[o.id].must_equal @c.load(:id=>o.id, :name=>'foo2', :i=>30) o = @c.create(:name=>'foo2') @c[o.id].must_equal @c.load(:id=>o.id, :name=>'foo2', :i=>nil) o = @c.create(:i=>30) @c[o.id].must_equal @c.load(:id=>o.id, :name=>nil, :i=>30) o = @c.create(:name=>nil, :i=>40) @c[o.id].must_equal @c.load(:id=>o.id, :name=>nil, :i=>40) end end describe "Sequel::Plugins::PreparedStatements with schema changes" do before do @db = DB @db.create_table!(:ps_test) do primary_key :id String :name end @c = Class.new(Sequel::Model(@db[:ps_test])) @c.many_to_one :ps_test, :key=>:id, :class=>@c @c.one_to_many :ps_tests, :key=>:id, :class=>@c @c.many_to_many :mps_tests, :left_key=>:id, :right_key=>:id, :class=>@c, :join_table=>Sequel[:ps_test].as(:x) @c.plugin :prepared_statements end after do @db.drop_table?(:ps_test) end it "should handle added columns" do foo = @c.create(:name=>'foo') @c[foo.id].name.must_equal 'foo' foo.ps_test.name.must_equal 'foo' foo.ps_tests.map{|x| x.name}.must_equal %w'foo' foo.mps_tests.map{|x| x.name}.must_equal %w'foo' foo.update(:name=>'foo2') @c[foo.id].name.must_equal 'foo2' foo.delete foo.exists?.must_equal false @db.alter_table(:ps_test){add_column :i, Integer} foo = @c.create(:name=>'foo') @c[foo.id].name.must_equal 'foo' foo.ps_test.name.must_equal 'foo' foo.ps_tests.map{|x| x.name}.must_equal %w'foo' foo.mps_tests.map{|x| x.name}.must_equal %w'foo' foo.update(:name=>'foo2') @c[foo.id].name.must_equal 'foo2' foo.delete foo.exists?.must_equal false end end describe "Caching plugins" do before(:all) do @db = DB @db.drop_table?(:albums, :artists) @db.create_table(:artists) do primary_key :id end @db.create_table(:albums) do primary_key :id foreign_key :artist_id, :artists end @db[:artists].insert @db[:albums].insert(:artist_id=>1) end before do @Album = Class.new(Sequel::Model(@db[:albums])) end after(:all) do @db.drop_table?(:albums, :artists) end CachingPluginSpecs = shared_description do it "should work with looking up using Model.[]" do @Artist[1].must_be_same_as(@Artist[1]) @Artist[:id=>1].must_equal @Artist[1] @Artist[0].must_be_nil @Artist[nil].must_be_nil end it "should work with lookup up many_to_one associated objects" do a = @Artist[1] @Album.first.artist.must_be_same_as(a) end end describe "caching plugin" do before do @cache_class = Class.new(Hash) do def set(k, v, ttl) self[k] = v end alias get [] end @cache = @cache_class.new @Artist = Class.new(Sequel::Model(@db[:artists])) @Artist.plugin :caching, @cache @Album.many_to_one :artist, :class=>@Artist end include CachingPluginSpecs end describe "static_cache plugin" do before do @Artist = Class.new(Sequel::Model(@db[:artists])) @Artist.plugin :static_cache @Album.many_to_one :artist, :class=>@Artist end include CachingPluginSpecs it "should have first retrieve correct values" do @Artist.first.must_equal @Artist.load(:id=>1) @Artist.first(1).must_equal [@Artist.load(:id=>1)] @Artist.first(:id=>1).must_equal @Artist.load(:id=>1) @Artist.first{id =~ 1}.must_equal @Artist.load(:id=>1) end end end describe "Sequel::Plugins::ConstraintValidations" do before(:all) do @db = DB @db.extension(:constraint_validations) unless @db.frozen? @db.drop_table?(:sequel_constraint_validations) @db.create_constraint_validations_table @ds = @db[:cv_test] @regexp = regexp = @db.dataset.supports_regexp? @validation_opts = {} opts_proc = proc{@validation_opts} @validate_block = proc do |opts| opts = opts_proc.call presence :pre, opts.merge(:name=>:p) exact_length 5, :exactlen, opts.merge(:name=>:el) min_length 5, :minlen, opts.merge(:name=>:minl) max_length 5, :maxlen, opts.merge(:name=>:maxl) length_range 3..5, :lenrange, opts.merge(:name=>:lr) if regexp format(/^foo\d+/, :form, opts.merge(:name=>:f)) end like 'foo%', :lik, opts.merge(:name=>:l) ilike 'foo%', :ilik, opts.merge(:name=>:il) includes %w'abc def', :inc, opts.merge(:name=>:i) unique :uniq, opts.merge(:name=>:u) max_length 6, :minlen, opts.merge(:name=>:maxl2) operator :<, 'm', :exactlen, opts.merge(:name=>:lt) operator :>=, 5, :num, opts.merge(:name=>:gte) presence [:m1, :m2, :m3], opts.merge(:name=>:pm) end @valid_row = {:pre=>'a', :exactlen=>'12345', :minlen=>'12345', :maxlen=>'12345', :lenrange=>'1234', :lik=>'fooabc', :ilik=>'FooABC', :inc=>'abc', :uniq=>'u', :num=>5, :m1=>'a', :m2=>1, :m3=>'a'} @violations = [ [:pre, [nil, '', ' ']], [:exactlen, [nil, '', '1234', '123456', 'n1234']], [:minlen, [nil, '', '1234']], [:maxlen, [nil, '123456']], [:lenrange, [nil, '', '12', '123456']], [:lik, [nil, '', 'fo', 'fotabc', 'FOOABC']], [:ilik, [nil, '', 'fo', 'fotabc']], [:inc, [nil, '', 'ab', 'abcd']], [:num, [nil, 3, 4]], ] if @regexp @valid_row[:form] = 'foo1' @violations << [:form, [nil, '', 'foo', 'fooa']] end end after(:all) do @db.drop_constraint_validations_table end ConstraintValidationsSpecs = shared_description do cspecify "should set up constraints that work even outside the model", [proc{|db| !db.mariadb? || db.server_version <= 100200}, :mysql] do @ds.insert(@valid_row) # Test for unique constraint proc{@ds.insert(@valid_row)}.must_raise(Sequel::DatabaseError) @ds.delete @violations.each do |col, vals| try = @valid_row.dup vals += ['1234567'] if col == :minlen vals.each do |val| next if val.nil? && @validation_opts[:allow_nil] next if val == '' && @validation_opts[:allow_nil] && @db.database_type == :oracle try[col] = val proc{@ds.insert(try)}.must_raise(Sequel::DatabaseError) end end try = @valid_row.dup if @validation_opts[:allow_nil] [:m1, :m2, :m3].each do |c| @ds.insert(try.merge(c=>nil)) @ds.delete end @ds.insert(try.merge(:m1=>nil, :m2=>nil)) @ds.delete @ds.insert(try.merge(:m1=>nil, :m3=>nil)) @ds.delete @ds.insert(try.merge(:m2=>nil, :m3=>nil)) @ds.delete @ds.insert(try.merge(:m1=>nil, :m2=>nil, :m3=>nil)) @ds.delete else [:m1, :m2, :m3].each do |c| proc{@ds.insert(try.merge(c=>nil))}.must_raise(Sequel::DatabaseError) end proc{@ds.insert(try.merge(:m1=>nil, :m2=>nil))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m1=>nil, :m3=>nil))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m2=>nil, :m3=>nil))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m1=>nil, :m2=>nil, :m3=>nil))}.must_raise(Sequel::DatabaseError) end unless @db.database_type == :oracle [:m1, :m3].each do |c| proc{@ds.insert(try.merge(c=>''))}.must_raise(Sequel::DatabaseError) end proc{@ds.insert(try.merge(:m1=>'', :m3=>''))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m1=>'', :m2=>nil))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m1=>nil, :m3=>''))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m2=>nil, :m3=>''))}.must_raise(Sequel::DatabaseError) proc{@ds.insert(try.merge(:m1=>'', :m2=>nil, :m3=>''))}.must_raise(Sequel::DatabaseError) end # Test for dropping of constraint @db.alter_table(:cv_test){validate{drop :maxl2}} @ds.insert(@valid_row.merge(:minlen=>'1234567')) end it "should set up automatic validations inside the model" do skip if @db.frozen? c = Class.new(Sequel::Model(@ds)) c.plugin :constraint_validations c.dataset.delete c.create(@valid_row) # Test for unique validation c.new(@valid_row).wont_be :valid? c.dataset.delete @violations.each do |col, vals| try = @valid_row.dup vals.each do |val| next if val.nil? && @validation_opts[:allow_nil] try[col] = val c.new(try).wont_be :valid? end end try = @valid_row.dup if @validation_opts[:allow_nil] [:m1, :m2, :m3].each do |col| c.new(try.merge(col=>nil)).must_be :valid? end c.new(try.merge(:m1=>nil, :m2=>nil)).must_be :valid? c.new(try.merge(:m1=>nil, :m3=>nil)).must_be :valid? c.new(try.merge(:m2=>nil, :m3=>nil)).must_be :valid? c.new(try.merge(:m1=>nil, :m2=>nil, :m3=>nil)).must_be :valid? else [:m1, :m2, :m3].each do |col| c.new(try.merge(col=>nil)).wont_be :valid? end c.new(try.merge(:m1=>nil, :m2=>nil)).wont_be :valid? c.new(try.merge(:m1=>nil, :m3=>nil)).wont_be :valid? c.new(try.merge(:m2=>nil, :m3=>nil)).wont_be :valid? c.new(try.merge(:m1=>nil, :m2=>nil, :m3=>nil)).wont_be :valid? end c.new(try.merge(:m1=>'', :m2=>nil)).wont_be :valid? c.new(try.merge(:m1=>nil, :m3=>'')).wont_be :valid? c.new(try.merge(:m2=>nil, :m3=>'')).wont_be :valid? c.new(try.merge(:m1=>'', :m2=>nil, :m3=>'')).wont_be :valid? [:m1, :m3].each do |col| c.new(try.merge(col=>'')).wont_be :valid? end c.new(try.merge(:m1=>'', :m3=>'')).wont_be :valid? c.db.constraint_validations = nil end end describe "via create_table" do before(:all) do @table_block = proc do regexp = @regexp validate_block = @validate_block @db.create_table!(:cv_test) do primary_key :id String :pre String :exactlen String :minlen String :maxlen String :lenrange if regexp String :form end String :lik String :ilik String :inc String :uniq, :null=>false Integer :num String :m1 Integer :m2 String :m3 validate(&validate_block) end end end after(:all) do @db.drop_table?(:cv_test) @db.drop_constraint_validations_for(:table=>:cv_test) end describe "with :allow_nil=>true" do before(:all) do @validation_opts = {:allow_nil=>true} @table_block.call end include ConstraintValidationsSpecs end describe "with :allow_nil=>false" do before(:all) do @table_block.call end include ConstraintValidationsSpecs end end describe "via alter_table" do before(:all) do @table_block = proc do regexp = @regexp validate_block = @validate_block @db.create_table!(:cv_test) do primary_key :id String :lik String :ilik String :inc String :uniq, :null=>false end @db.alter_table(:cv_test) do add_column :pre, String add_column :exactlen, String add_column :minlen, String add_column :maxlen, String add_column :lenrange, String if regexp add_column :form, String end add_column :num, Integer add_column :m1, String add_column :m2, Integer add_column :m3, String validate(&validate_block) end end end after(:all) do @db.drop_table?(:cv_test) @db.drop_constraint_validations_for(:table=>:cv_test) end describe "with :allow_nil=>true" do before(:all) do @validation_opts = {:allow_nil=>true} @table_block.call end include ConstraintValidationsSpecs end describe "with :allow_nil=>false" do before(:all) do @table_block.call end include ConstraintValidationsSpecs end end end describe "date_arithmetic extension" do asd = begin require 'active_support/duration' require 'active_support/inflector' require 'active_support/core_ext/string/inflections' true rescue LoadError false end before(:all) do @db = DB @db.extension(:date_arithmetic) unless @db.frozen? skip if @db.database_type == :sqlite && @db.frozen? if @db.database_type == :sqlite @db.use_timestamp_timezones = false end @date = Date.civil(2010, 7, 12) @dt = Time.local(2010, 7, 12) if asd @d0 = ActiveSupport::Duration.new(0, [[:days, 0]]) @d1 = ActiveSupport::Duration.new(1, [[:days, 1]]) @d2 = ActiveSupport::Duration.new(1, [[:years, 1], [:months, 1], [:days, 1], [:minutes, 61], [:seconds, 1]]) end @h0 = {:days=>0} @h1 = {:days=>1, :years=>nil, :hours=>0} @h2 = {:years=>1, :months=>1, :days=>1, :hours=>1, :minutes=>1, :seconds=>1} @a1 = Time.local(2010, 7, 13) @a2 = Time.local(2011, 8, 13, 1, 1, 1) @s1 = Time.local(2010, 7, 11) @s2 = Time.local(2009, 6, 10, 22, 58, 59) @check = lambda do |meth, in_date, in_interval, should| output = @db.get(Sequel.send(meth, in_date, in_interval)) output = Time.parse(output.to_s) unless output.is_a?(Time) || output.is_a?(DateTime) output.year.must_equal should.year output.month.must_equal should.month output.day.must_equal should.day output.hour.must_equal should.hour output.min.must_equal should.min output.sec.must_equal should.sec end end after(:all) do if @db.database_type == :sqlite @db.use_timestamp_timezones = true end end if asd it "be able to use Sequel.date_add to add ActiveSupport::Duration objects to dates and datetimes" do @check.call(:date_add, @date, @d0, @dt) @check.call(:date_add, @date, @d1, @a1) @check.call(:date_add, @date, @d2, @a2) @check.call(:date_add, @dt, @d0, @dt) @check.call(:date_add, @dt, @d1, @a1) @check.call(:date_add, @dt, @d2, @a2) end it "be able to use Sequel.date_sub to subtract ActiveSupport::Duration objects from dates and datetimes" do @check.call(:date_sub, @date, @d0, @dt) @check.call(:date_sub, @date, @d1, @s1) @check.call(:date_sub, @date, @d2, @s2) @check.call(:date_sub, @dt, @d0, @dt) @check.call(:date_sub, @dt, @d1, @s1) @check.call(:date_sub, @dt, @d2, @s2) end end it "be able to use Sequel.date_add to add interval hashes to dates and datetimes" do @check.call(:date_add, @date, @h0, @dt) @check.call(:date_add, @date, @h1, @a1) @check.call(:date_add, @date, @h2, @a2) @check.call(:date_add, @dt, @h0, @dt) @check.call(:date_add, @dt, @h1, @a1) @check.call(:date_add, @dt, @h2, @a2) end it "be able to use Sequel.date_sub to subtract interval hashes from dates and datetimes" do @check.call(:date_sub, @date, @h0, @dt) @check.call(:date_sub, @date, @h1, @s1) @check.call(:date_sub, @date, @h2, @s2) @check.call(:date_sub, @dt, @h0, @dt) @check.call(:date_sub, @dt, @h1, @s1) @check.call(:date_sub, @dt, @h2, @s2) end end describe "string_agg extension" do before(:all) do @db = DB @db.extension(:string_agg) unless @db.frozen? @db.create_table!(:string_agg_test) do Integer :id String :s Integer :o end @db[:string_agg_test].import([:id, :s, :o], [[1, 'a', 3], [1, 'a', 3], [1, 'b', 5], [1, 'c', 4], [2, 'aa', 2], [2, 'bb', 1]]) @ds = @db[:string_agg_test].select_group(:id).order(:id) end after(:all) do @db.drop_table?(:string_agg_test) end cspecify "should have string_agg return aggregated concatenation", :mssql, :sqlite, :derby do h = @ds.select_append(Sequel.string_agg(:s).as(:v)).to_hash(:id, :v) h[1].must_match(/\A[abc],[abc],[abc],[abc]\z/) h[2].must_match(/\A(aa|bb),(aa|bb)\z/) @ds.select_append(Sequel.string_agg(:s).order(:o).as(:v)).map([:id, :v]).must_equal [[1, 'a,a,c,b'], [2, 'bb,aa']] @ds.select_append(Sequel.string_agg(:s, '-').order(:o).as(:v)).map([:id, :v]).must_equal [[1, 'a-a-c-b'], [2, 'bb-aa']] end cspecify "should have string_agg return aggregated concatenation for distinct values", :mssql, :sqlite, :oracle, :db2, :derby do @ds.select_group(:id).select_append(Sequel.string_agg(:s).order(:s).distinct.as(:v)).map([:id, :v]).must_equal [[1, 'a,b,c'], [2, 'aa,bb']] end end if (DB.database_type != :postgres || DB.server_version >= 90000) describe "insert_conflict plugin" do before(:all) do @db = DB @db.create_table!(:ic_test) do primary_key :id String :s, :unique=>true Integer :o end @model = Class.new(Sequel::Model) @model.set_dataset @db[:ic_test] @model.plugin :insert_conflict end after(:all) do @db.drop_table?(:ic_test) end it "should allow Model#insert_conflict to work" do ic_opts = {:target=>:s, :update => {:o => Sequel[:excluded][:o]}} @model.new(:s=>'A', :o=>1).insert_conflict(ic_opts).save @model.select_order_map([:s, :o]).must_equal [['A', 1]] @model.new(:s=>'A', :o=>2).insert_conflict(ic_opts).save @model.select_order_map([:s, :o]).must_equal [['A', 2]] @model.new(:s=>'B', :o=>3).insert_conflict(ic_opts).save @model.select_order_map([:s, :o]).must_equal [['A', 2], ['B', 3]] end end if (DB.database_type == :postgres && DB.server_version >= 90500) || (DB.database_type == :sqlite && DB.sqlite_version >= 32400)