require_relative "spec_helper" describe "class_table_inheritance plugin" do before do @db = Sequel.mock(:numrows=>1, :autoid=>proc{|sql| 1}) def @db.supports_schema_parsing?() true end def @db.schema(table, opts={}) {:employees=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}], [:kind, {:type=>:string}]], :managers=>[[:id, {:type=>:integer}], [:num_staff, {:type=>:integer}] ], :executives=>[[:id, {:type=>:integer}], [:num_managers, {:type=>:integer}]], :staff=>[[:id, {:type=>:integer}], [:manager_id, {:type=>:integer}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[:employees]=>[:id, :name, :kind], [:managers]=>[:id, :num_staff], [:executives]=>[:id, :num_managers], [:staff]=>[:id, :manager_id], [:employees, :managers]=>[:id, :name, :kind, :num_staff], [:employees, :managers, :executives]=>[:id, :name, :kind, :num_staff, :num_managers], [:employees, :staff]=>[:id, :name, :kind, :manager_id], }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end class ::Employee < Sequel::Model(@db) def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance, :key=>:kind, :table_map=>{:Staff=>:staff} end class ::Manager < Employee one_to_many :staff_members, :class=>:Staff end class ::Executive < Manager end class ::Ceo < Executive end class ::Staff < Employee many_to_one :manager end class ::Intern < Employee end @ds = Employee.dataset @db.sqls end after do [:Intern, :Ceo, :Executive, :Manager, :Staff, :Employee].each{|s| Object.send(:remove_const, s)} end it "should freeze CTI information when freezing model class" do Employee.freeze Employee.cti_models.frozen?.must_equal true Employee.cti_tables.frozen?.must_equal true Employee.cti_instance_dataset.frozen?.must_equal true Employee.cti_table_columns.frozen?.must_equal true Employee.cti_table_map.frozen?.must_equal true end it "should not attempt to use prepared statements" do Manager.plugin :prepared_statements Manager.load(:id=>1, :kind=>'Manager', :num_staff=>2).save @db.sqls.must_equal ["UPDATE employees SET kind = 'Manager' WHERE (id = 1)", "UPDATE managers SET num_staff = 2 WHERE (id = 1)"] Employee.plugin :prepared_statements Employee.load(:id=>2, :kind=>'Employee').save @db.sqls.must_equal ["UPDATE employees SET kind = 'Employee' WHERE (id = 2)"] end it "#cti_models.first should be the model that loaded the plugin" do Executive.cti_models.first.must_equal Employee end it "should have simple_table = nil for all subclasses" do Manager.simple_table.must_be_nil Executive.simple_table.must_be_nil Ceo.simple_table.must_be_nil Staff.simple_table.must_be_nil Intern.simple_table.must_be_nil end it "should have working row_proc if using set_dataset in subclass to remove columns" do Manager.set_dataset(Manager.dataset.select(*(Manager.columns - [:blah]))) Manager.dataset = Manager.dataset.with_fetch(:id=>1, :kind=>'Ceo') Manager[1].must_equal Ceo.load(:id=>1, :kind=>'Ceo') end it "should use a subquery in subclasses" do Employee.dataset.sql.must_equal 'SELECT * FROM employees' Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees' Executive.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id)) AS employees' Ceo.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id) WHERE (employees.kind IN (\'Ceo\'))) AS employees' Staff.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, staff.manager_id FROM employees INNER JOIN staff ON (staff.id = employees.id)) AS employees' Intern.dataset.sql.must_equal 'SELECT * FROM employees WHERE (employees.kind IN (\'Intern\'))' end it "should return rows with the correct class based on the polymorphic_key value" do @ds.with_fetch([{:kind=>'Employee'}, {:kind=>'Manager'}, {:kind=>'Executive'}, {:kind=>'Ceo'}, {:kind=>'Staff'}, {:kind=>'Intern'}]).all.collect{|x| x.class}.must_equal [Employee, Manager, Executive, Ceo, Staff, Intern] end it "should return rows with the correct class based on the polymorphic_key value for subclasses" do Manager.dataset.with_fetch([{:kind=>'Manager'}, {:kind=>'Executive'}, {:kind=>'Ceo'}]).all.collect{|x| x.class}.must_equal [Manager, Executive, Ceo] end it "should have refresh return all columns in subclass after loading from superclass" do Employee.dataset = Employee.dataset.with_fetch([{:id=>1, :name=>'A', :kind=>'Ceo'}]) Ceo.dataset = Ceo.dataset.with_fetch([{:id=>1, :name=>'A', :kind=>'Ceo', :num_staff=>3, :num_managers=>2}]) a = Employee.first a.class.must_equal Ceo a.values.must_equal(:id=>1, :name=>'A', :kind=>'Ceo') a.refresh.values.must_equal(:id=>1, :name=>'A', :kind=>'Ceo', :num_staff=>3, :num_managers=>2) @db.sqls.must_equal ["SELECT * FROM employees LIMIT 1", "SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id) WHERE (employees.kind IN ('Ceo'))) AS employees WHERE (id = 1) LIMIT 1"] end it "should return rows with the current class if sti_key is nil" do Employee.plugin :class_table_inheritance Employee.dataset.with_fetch([{:kind=>'Employee'}, {:kind=>'Manager'}, {:kind=>'Executive'}, {:kind=>'Ceo'}, {:kind=>'Staff'}, {:kind=>'Intern'}]).all.map{|x| x.class}.must_equal [Employee, Employee, Employee, Employee, Employee, Employee] end it "should return rows with the current class if sti_key is nil in subclasses" do Employee.plugin :class_table_inheritance Object.send(:remove_const, :Executive) Object.send(:remove_const, :Manager) class ::Manager < Employee; end class ::Executive < Manager; end Manager.dataset.with_fetch([{:kind=>'Manager'}, {:kind=>'Executive'}]).all.map{|x| x.class}.must_equal [Manager, Manager] end it "should handle a model map with integer values" do Employee.plugin :class_table_inheritance, :key=>:kind, :model_map=>{0=>:Employee, 1=>:Manager, 2=>:Executive, 3=>:Ceo, 4=>:Intern} Object.send(:remove_const, :Intern) Object.send(:remove_const, :Ceo) Object.send(:remove_const, :Executive) Object.send(:remove_const, :Manager) class ::Intern < Employee; end class ::Manager < Employee; end class ::Executive < Manager; end class ::Ceo < Executive; end Employee.dataset = Employee.dataset.with_fetch([{:kind=>nil},{:kind=>0},{:kind=>1}, {:kind=>2}, {:kind=>3}, {:kind=>4}]) Employee.all.collect{|x| x.class}.must_equal [Employee, Employee, Manager, Executive, Ceo, Intern] Manager.dataset = Manager.dataset.with_fetch([{:kind=>nil},{:kind=>0},{:kind=>1}, {:kind=>2}, {:kind=>3}]) Manager.all.collect{|x| x.class}.must_equal [Manager, Employee, Manager, Executive, Ceo] end it "should fallback to the main class if the given class does not exist" do @ds.with_fetch([{:kind=>'Employee'}, {:kind=>'Manager'}, {:kind=>'Blah'}, {:kind=>'Staff'}]).all.map{|x| x.class}.must_equal [Employee, Manager, Employee, Staff] end it "should fallback to the main class if the given class does not exist in subclasses" do Manager.dataset.with_fetch([{:kind=>'Manager'}, {:kind=>'Executive'}, {:kind=>'Ceo'}, {:kind=>'Blah'}]).all.map{|x| x.class}.must_equal [Manager, Executive, Ceo, Manager] end it "should sets the model class name for the key when creating new parent class records" do Employee.create @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Employee')"] end it "should sets the model class name for the key when creating new class records for subclass without separate table" do Intern.create @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Intern')"] end it "should sets the model class name for the key when creating new subclass records" do Ceo.create @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Ceo')", "INSERT INTO managers (id) VALUES (1)", "INSERT INTO executives (id) VALUES (1)"] end it "should ignore existing sti_key value when creating new records" do Employee.create(:kind=>'Manager') @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Employee')"] end it "should ignore existing sti_key value in subclasses" do Manager.create(:kind=>'Executive') @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Manager')", "INSERT INTO managers (id) VALUES (1)"] end it "should handle validations on the type column field" do o = Employee.new def o.validate errors.add(:kind, 'not present') unless kind end o.valid?.must_equal true end it "should set the type column field even when not validating" do Employee.new.save(:validate=>false) @db.sqls.must_equal ["INSERT INTO employees (kind) VALUES ('Employee')"] end it "should allow specifying a map of names to tables to override implicit mapping" do Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees' Staff.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, staff.manager_id FROM employees INNER JOIN staff ON (staff.id = employees.id)) AS employees' end it "should lazily load attributes for columns in subclass tables" do Manager.dataset = Manager.dataset.with_fetch(:id=>1, :name=>'J', :kind=>'Ceo', :num_staff=>2) m = Manager[1] @db.sqls.must_equal ['SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees WHERE (id = 1) LIMIT 1'] @db.fetch = {:num_managers=>3} m.must_be_kind_of Ceo m.num_managers.must_equal 3 @db.sqls.must_equal ['SELECT employees.num_managers FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id)) AS employees WHERE (employees.id = 1) LIMIT 1'] m.values.must_equal(:id=>1, :name=>'J', :kind=>'Ceo', :num_staff=>2, :num_managers=>3) end it "should lazily load columns in middle classes correctly when loaded from parent class" do Employee.dataset = Employee.dataset.with_fetch(:id=>1, :kind=>'Ceo') @db.fetch = [[:num_staff=>2]] e = Employee[1] e.must_be_kind_of(Ceo) @db.sqls.must_equal ["SELECT * FROM employees WHERE (id = 1) LIMIT 1"] e.num_staff.must_equal 2 @db.sqls.must_equal ["SELECT employees.num_staff FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees WHERE (employees.id = 1) LIMIT 1"] end it "should eagerly load lazily columns in subclasses when loaded from parent class" do Employee.dataset = Employee.dataset.with_fetch(:id=>1, :kind=>'Ceo') @db.fetch = [[{:id=>1, :num_staff=>2}], [{:id=>1, :num_managers=>3}]] e = Employee.all.first e.must_be_kind_of(Ceo) @db.sqls.must_equal ["SELECT * FROM employees"] e.num_staff.must_equal 2 @db.sqls.must_equal ["SELECT employees.id, employees.num_staff FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees WHERE (employees.id IN (1))"] e.num_managers.must_equal 3 @db.sqls.must_equal ['SELECT employees.id, employees.num_managers FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id)) AS employees WHERE (employees.id IN (1))'] end it "should include schema for columns for tables for ancestor classes" do Employee.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}) Manager.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :num_staff=>{:type=>:integer}) Executive.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :num_staff=>{:type=>:integer}, :num_managers=>{:type=>:integer}) Staff.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :manager_id=>{:type=>:integer}) Intern.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}) end it "should use the correct primary key (which should have the same name in all subclasses)" do [Employee, Manager, Executive, Ceo, Staff, Intern].each{|c| c.primary_key.must_equal :id} end it "should have table_name return the table name of the most specific table" do Employee.table_name.must_equal :employees Manager.table_name.must_equal :employees Executive.table_name.must_equal :employees Ceo.table_name.must_equal :employees Staff.table_name.must_equal :employees Intern.table_name.must_equal :employees end it "should delete the correct rows from all tables when deleting" do Employee.load(:id=>1).delete @db.sqls.must_equal ["DELETE FROM employees WHERE (id = 1)"] Intern.load(:id=>1).delete @db.sqls.must_equal ["DELETE FROM employees WHERE (id = 1)"] Ceo.load(:id=>1).delete @db.sqls.must_equal ["DELETE FROM executives WHERE (id = 1)", "DELETE FROM managers WHERE (id = 1)", "DELETE FROM employees WHERE (id = 1)"] end it "should not allow deletion of frozen object" do [Ceo, Executive, Employee, Manager, Intern].each do |c| o = c.load(:id=>1) o.freeze proc{o.delete}.must_raise(Sequel::Error) @db.sqls.must_equal [] end end it "should insert the correct rows into all tables when inserting into parent class" do Employee.create(:name=>'E') @db.sqls.must_equal ["INSERT INTO employees (name, kind) VALUES ('E', 'Employee')"] end it "should insert the correct rows into all tables when inserting into subclass without separate table" do Intern.create(:name=>'E') @db.sqls.must_equal ["INSERT INTO employees (name, kind) VALUES ('E', 'Intern')"] end it "should insert the correct rows into all tables when inserting" do Ceo.create(:num_managers=>3, :num_staff=>2, :name=>'E') @db.sqls.must_equal ["INSERT INTO employees (name, kind) VALUES ('E', 'Ceo')", "INSERT INTO managers (id, num_staff) VALUES (1, 2)", "INSERT INTO executives (id, num_managers) VALUES (1, 3)"] end it "should insert the correct rows into all tables when inserting when insert_select is supported" do [Executive, Manager, Employee].each do |klass| klass.instance_variable_set(:@cti_instance_dataset, klass.cti_instance_dataset.with_extend do def supports_insert_select?; true; end def insert_select(v) db.run(insert_sql(v) + " RETURNING *") v.merge(:id=>1) end end) end Ceo.create(:num_managers=>3, :num_staff=>2, :name=>'E') @db.sqls.must_equal ["INSERT INTO employees (name, kind) VALUES ('E', 'Ceo') RETURNING *", "INSERT INTO managers (id, num_staff) VALUES (1, 2) RETURNING *", "INSERT INTO executives (id, num_managers) VALUES (1, 3) RETURNING *"] end it "should insert the correct rows into all tables with a given primary key" do e = Ceo.new(:num_managers=>3, :num_staff=>2, :name=>'E') e.id = 2 e.save @db.sqls.must_equal ["INSERT INTO employees (id, name, kind) VALUES (2, 'E', 'Ceo')", "INSERT INTO managers (id, num_staff) VALUES (2, 2)", "INSERT INTO executives (id, num_managers) VALUES (2, 3)"] end it "should update the correct rows in all tables when updating parent class" do Employee.load(:id=>2).update(:name=>'E') @db.sqls.must_equal ["UPDATE employees SET name = 'E' WHERE (id = 2)"] end it "should update the correct rows in all tables when updating subclass without separate table" do Intern.load(:id=>2).update(:name=>'E') @db.sqls.must_equal ["UPDATE employees SET name = 'E' WHERE (id = 2)"] end it "should update the correct rows in all tables when updating" do Ceo.load(:id=>2).update(:num_managers=>3, :num_staff=>2, :name=>'E') @db.sqls.must_equal ["UPDATE employees SET name = 'E' WHERE (id = 2)", "UPDATE managers SET num_staff = 2 WHERE (id = 2)", "UPDATE executives SET num_managers = 3 WHERE (id = 2)"] end it "should raise error if one of the updates does not update a single row" do @db.numrows = [1, 0] proc{Ceo.load(:id=>2).update(:num_managers=>3, :num_staff=>2, :name=>'E')}.must_raise Sequel::NoExistingObject @db.sqls.must_equal ["UPDATE employees SET name = 'E' WHERE (id = 2)", "UPDATE managers SET num_staff = 2 WHERE (id = 2)"] end it "should handle many_to_one relationships correctly" do Manager.dataset = Manager.dataset.with_fetch(:id=>3, :name=>'E', :kind=>'Ceo', :num_managers=>3) Staff.load(:manager_id=>3).manager.must_equal Ceo.load(:id=>3, :name=>'E', :kind=>'Ceo', :num_managers=>3) @db.sqls.must_equal ['SELECT * FROM (SELECT employees.id, employees.name, employees.kind, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees WHERE (id = 3) LIMIT 1'] end it "should handle one_to_many relationships correctly" do Staff.dataset = Staff.dataset.with_fetch(:id=>1, :name=>'S', :kind=>'Staff', :manager_id=>3) Ceo.load(:id=>3).staff_members.must_equal [Staff.load(:id=>1, :name=>'S', :kind=>'Staff', :manager_id=>3)] @db.sqls.must_equal ['SELECT * FROM (SELECT employees.id, employees.name, employees.kind, staff.manager_id FROM employees INNER JOIN staff ON (staff.id = employees.id)) AS employees WHERE (employees.manager_id = 3)'] end end describe "class_table_inheritance plugin without sti_key with :alias option" do before do @db = Sequel.mock(:numrows=>1, :autoid=>proc{|sql| 1}) def @db.supports_schema_parsing?() true end def @db.schema(table, opts={}) {:employees=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}]], :managers=>[[:id, {:type=>:integer}], [:num_staff, {:type=>:integer}]], :executives=>[[:id, {:type=>:integer}], [:num_managers, {:type=>:integer}]], :staff=>[[:id, {:type=>:integer}], [:manager_id, {:type=>:integer}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[:employees]=>[:id, :name], [:managers]=>[:id, :num_staff], [:executives]=>[:id, :num_managers], [:staff]=>[:id, :manager_id], [:employees, :managers]=>[:id, :name, :num_staff], [:employees, :managers, :executives]=>[:id, :name, :num_staff, :num_managers], [:employees, :staff]=>[:id, :name, :manager_id], }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end class ::Employee < Sequel::Model(@db) def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance, :table_map=>{:Staff=>:staff}, :alias=>:emps end class ::Manager < Employee one_to_many :staff_members, :class=>:Staff end class ::Executive < Manager end class ::Staff < Employee many_to_one :manager end @ds = Employee.dataset @db.sqls end after do Object.send(:remove_const, :Executive) Object.send(:remove_const, :Manager) Object.send(:remove_const, :Staff) Object.send(:remove_const, :Employee) end it "should have simple_table = nil for all subclasses" do Manager.simple_table.must_be_nil Executive.simple_table.must_be_nil Staff.simple_table.must_be_nil end it "should have working row_proc if using set_dataset in subclass to remove columns" do Manager.set_dataset(Manager.dataset.select(*(Manager.columns - [:blah]))) Manager.dataset = Manager.dataset.with_fetch(:id=>1) Manager[1].must_equal Manager.load(:id=>1) end it "should use a joined dataset in subclasses" do Employee.dataset.sql.must_equal 'SELECT * FROM employees' Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS emps' Executive.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, managers.num_staff, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id)) AS emps' Staff.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, staff.manager_id FROM employees INNER JOIN staff ON (staff.id = employees.id)) AS emps' end it "should return rows with the current class if sti_key is nil" do Employee.plugin(:class_table_inheritance) Employee.dataset = Employee.dataset.with_fetch([{}]) Employee.first.class.must_equal Employee end it "should include schema for columns for tables for ancestor classes" do Employee.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}) Manager.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :num_staff=>{:type=>:integer}) Executive.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :num_staff=>{:type=>:integer}, :num_managers=>{:type=>:integer}) Staff.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :manager_id=>{:type=>:integer}) end it "should use the correct primary key (which should have the same name in all subclasses)" do [Employee, Manager, Executive, Staff].each{|c| c.primary_key.must_equal :id} end it "should have table_name return the table name of the most specific table" do Employee.table_name.must_equal :employees Manager.table_name.must_equal :emps Executive.table_name.must_equal :emps Staff.table_name.must_equal :emps end it "should delete the correct rows from all tables when deleting" do Executive.load(:id=>1).delete @db.sqls.must_equal ["DELETE FROM executives WHERE (id = 1)", "DELETE FROM managers WHERE (id = 1)", "DELETE FROM employees WHERE (id = 1)"] end it "should not allow deletion of frozen object" do o = Executive.load(:id=>1) o.freeze proc{o.delete}.must_raise(Sequel::Error) @db.sqls.must_equal [] end it "should insert the correct rows into all tables when inserting" do Executive.create(:num_managers=>3, :num_staff=>2, :name=>'E') @db.sqls.must_equal ["INSERT INTO employees (name) VALUES ('E')", "INSERT INTO managers (id, num_staff) VALUES (1, 2)", "INSERT INTO executives (id, num_managers) VALUES (1, 3)"] end it "should insert the correct rows into all tables with a given primary key" do e = Executive.new(:num_managers=>3, :num_staff=>2, :name=>'E') e.id = 2 e.save @db.sqls.must_equal ["INSERT INTO employees (id, name) VALUES (2, 'E')", "INSERT INTO managers (id, num_staff) VALUES (2, 2)", "INSERT INTO executives (id, num_managers) VALUES (2, 3)"] end it "should update the correct rows in all tables when updating" do Executive.load(:id=>2).update(:num_managers=>3, :num_staff=>2, :name=>'E') @db.sqls.must_equal ["UPDATE employees SET name = 'E' WHERE (id = 2)", "UPDATE managers SET num_staff = 2 WHERE (id = 2)", "UPDATE executives SET num_managers = 3 WHERE (id = 2)"] end it "should handle many_to_one relationships correctly" do Manager.dataset = Manager.dataset.with_fetch(:id=>3, :name=>'E', :num_staff=>3) Staff.load(:manager_id=>3).manager.must_equal Manager.load(:id=>3, :name=>'E', :num_staff=>3) @db.sqls.must_equal ['SELECT * FROM (SELECT employees.id, employees.name, managers.num_staff FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS emps WHERE (id = 3) LIMIT 1'] end it "should handle one_to_many relationships correctly" do Staff.dataset = Staff.dataset.with_fetch(:id=>1, :name=>'S', :manager_id=>3) Executive.load(:id=>3).staff_members.must_equal [Staff.load(:id=>1, :name=>'S', :manager_id=>3)] @db.sqls.must_equal ['SELECT * FROM (SELECT employees.id, employees.name, staff.manager_id FROM employees INNER JOIN staff ON (staff.id = employees.id)) AS emps WHERE (emps.manager_id = 3)'] end end describe "class_table_inheritance plugin with duplicate columns" do it "should raise error if no columns are explicitly ignored" do @db = Sequel.mock(:autoid=>proc{|sql| 1}) def @db.supports_schema_parsing?() true end def @db.schema(table, opts={}) {:employees=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}], [:kind, {:type=>:string}]], :managers=>[[:id, {:type=>:integer}], [:name, {:type=>:string}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[:employees]=>[:id, :name, :kind], [:managers]=>[:id, :name], }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end class ::Employee < Sequel::Model(@db) def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance end proc{class ::Manager < Employee; end}.must_raise Sequel::Error end describe "with certain sub-class columns ignored" do before do @db = Sequel.mock(:autoid=>proc{|sql| 1}) def @db.supports_schema_parsing?() true end def @db.schema(table, opts={}) {:employees=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}], [:kind, {:type=>:string}], [:updated_at, {:type=>:datetime}]], :managers=>[[:id, {:type=>:integer}], [:num_staff, {:type=>:integer}], [:updated_at, {:type=>:datetime}], [:another_duplicate_column, {:type=>:integer}]], :executives=>[[:id, {:type=>:integer}], [:num_managers, {:type=>:integer}], [:updated_at, {:type=>:datetime}], [:another_duplicate_column, {:type=>:integer}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[:employees]=>[:id, :name, :kind, :updated_at], [:managers]=>[:id, :num_staff, :updated_at, :another_duplicate_column], [:executives]=>[:id, :num_managers, :updated_at, :another_duplicate_column], [:employees, :managers]=>[:id, :name, :kind, :updated_at, :num_staff], }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end class ::Employee < Sequel::Model(@db) def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance, :ignore_subclass_columns=>[:updated_at] end class ::Manager < Employee Manager.cti_ignore_subclass_columns.push(:another_duplicate_column) end class ::Executive < Manager; end end it "should not use the ignored column in a sub-class subquery" do Employee.dataset.sql.must_equal 'SELECT * FROM employees' Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, employees.updated_at, managers.num_staff, managers.another_duplicate_column FROM employees INNER JOIN managers ON (managers.id = employees.id)) AS employees' Executive.dataset.sql.must_equal 'SELECT * FROM (SELECT employees.id, employees.name, employees.kind, employees.updated_at, managers.num_staff, managers.another_duplicate_column, executives.num_managers FROM employees INNER JOIN managers ON (managers.id = employees.id) INNER JOIN executives ON (executives.id = managers.id)) AS employees' end it "should include schema for columns for tables for ancestor classes" do Employee.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :updated_at=>{:type=>:datetime}) Manager.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :updated_at=>{:type=>:datetime}, :num_staff=>{:type=>:integer}, :another_duplicate_column=>{:type=>:integer}) Executive.db_schema.must_equal(:id=>{:primary_key=>true, :type=>:integer}, :name=>{:type=>:string}, :kind=>{:type=>:string}, :updated_at=>{:type=>:datetime}, :num_staff=>{:type=>:integer}, :another_duplicate_column=>{:type=>:integer}, :num_managers=>{:type=>:integer}) end after do Object.send(:remove_const, :Executive) end end after do Object.send(:remove_const, :Manager) Object.send(:remove_const, :Employee) end end describe "class_table_inheritance plugin with dataset defined with QualifiedIdentifier" do before do @db = Sequel.mock(:numrows=>1, :autoid=>proc{|sql| 1}) def @db.supports_schema_parsing?() true end def @db.schema(table, opts={}) {Sequel[:hr][:employees]=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}], [:kind, {:type=>:string}]], Sequel[:hr][:managers]=>[[:id, {:type=>:integer}]], Sequel[:hr][:staff]=>[[:id, {:type=>:integer}], [:manager_id, {:type=>:integer}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[Sequel[:hr][:employees]]=>[:id, :name, :kind], [Sequel[:hr][:managers]]=>[:id], [Sequel[:hr][:staff]]=>[:id, :manager_id], [Sequel[:hr][:employees], Sequel[:hr][:managers]]=>[:id, :name, :kind], [Sequel[:hr][:employees], Sequel[:hr][:staff]]=>[:id, :name, :kind, :manager_id], }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end end after do [:Manager, :Staff, :Employee].each{|s| Object.send(:remove_const, s) if Object.const_defined?(s)} end describe "with table_map used to qualify subclasses" do before do ::Employee = Class.new(Sequel::Model) ::Employee.db = @db ::Employee.set_dataset(Sequel[:hr][:employees]) class ::Employee def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance, :table_map=>{:Manager=>Sequel[:hr][:managers],:Staff=>Sequel[:hr][:staff]} end class ::Manager < Employee one_to_many :staff_members, :class=>:Staff end class ::Staff < Employee many_to_one :manager end end it "should handle many_to_one relationships correctly" do Manager.dataset = Manager.dataset.with_fetch(:id=>3, :name=>'E') Staff.load(:manager_id=>3).manager.must_equal Manager.load(:id=>3, :name=>'E') @db.sqls.must_equal ['SELECT * FROM (SELECT hr.employees.id, hr.employees.name, hr.employees.kind FROM hr.employees INNER JOIN hr.managers ON (hr.managers.id = hr.employees.id)) AS employees WHERE (id = 3) LIMIT 1'] end it "should handle one_to_many relationships correctly" do Staff.dataset = Staff.dataset.with_fetch(:id=>1, :name=>'S', :manager_id=>3) Manager.load(:id=>3).staff_members.must_equal [Staff.load(:id=>1, :name=>'S', :manager_id=>3)] @db.sqls.must_equal ['SELECT * FROM (SELECT hr.employees.id, hr.employees.name, hr.employees.kind, hr.staff.manager_id FROM hr.employees INNER JOIN hr.staff ON (hr.staff.id = hr.employees.id)) AS employees WHERE (employees.manager_id = 3)'] end end describe "without table_map or qualify_tables set" do it "should use a non-qualified subquery in subclasses" do def @db.schema(table, opts={}) {Sequel[:hr][:employees]=>[[:id, {:primary_key=>true, :type=>:integer}], [:name, {:type=>:string}], [:kind, {:type=>:string}]], :managers=>[[:id, {:type=>:integer}]], }[table.is_a?(Sequel::Dataset) ? table.first_source_table : table] end @db.extend_datasets do def columns {[Sequel[:hr][:employees]]=>[:id, :name, :kind], [:managers]=>[:id], [Sequel[:hr][:employees], :managers]=>[:id, :name, :kind] }[opts[:from] + (opts[:join] || []).map{|x| x.table}] end end ::Employee = Class.new(Sequel::Model) ::Employee.db = @db ::Employee.set_dataset(Sequel[:hr][:employees]) class ::Employee def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance end class ::Manager < ::Employee end Employee.dataset.sql.must_equal 'SELECT * FROM hr.employees' Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT hr.employees.id, hr.employees.name, hr.employees.kind FROM hr.employees INNER JOIN managers ON (managers.id = hr.employees.id)) AS employees' end end describe "with qualify_tables option set" do it "should use a subquery with the same qualifier in subclasses" do ::Employee = Class.new(Sequel::Model) ::Employee.db = @db ::Employee.set_dataset(Sequel[:hr][:employees]) class ::Employee def _save_refresh; @values[:id] = 1 end def self.columns dataset.columns || dataset.opts[:from].first.expression.columns end plugin :class_table_inheritance, :table_map=>{:Staff=>Sequel[:hr][:staff]}, qualify_tables: true end class ::Manager < ::Employee one_to_many :staff_members, :class=>:Staff end class ::Staff < ::Employee many_to_one :manager end Employee.dataset.sql.must_equal 'SELECT * FROM hr.employees' Manager.dataset.sql.must_equal 'SELECT * FROM (SELECT hr.employees.id, hr.employees.name, hr.employees.kind FROM hr.employees INNER JOIN hr.managers ON (hr.managers.id = hr.employees.id)) AS employees' Staff.dataset.sql.must_equal 'SELECT * FROM (SELECT hr.employees.id, hr.employees.name, hr.employees.kind, hr.staff.manager_id FROM hr.employees INNER JOIN hr.staff ON (hr.staff.id = hr.employees.id)) AS employees' end end end