require_relative "spec_helper" describe "Database schema parser" do after do DB.drop_table?(:items) end describe "with identifier mangling" do before do @iom = DB.identifier_output_method @iim = DB.identifier_input_method @qi = DB.quote_identifiers? end after do DB.identifier_output_method = @iom DB.identifier_input_method = @iim DB.quote_identifiers = @qi end it "should handle a database with a identifier methods" do DB.identifier_output_method = :reverse DB.identifier_input_method = :reverse DB.quote_identifiers = true DB.create_table!(:items){Integer :number} begin DB.schema(:items, :reload=>true).must_be_kind_of(Array) DB.schema(:items, :reload=>true).first.first.must_equal :number ensure end end it "should handle a dataset with identifier methods different than the database's" do DB.identifier_output_method = :reverse DB.identifier_input_method = :reverse DB.quote_identifiers = true DB.create_table!(:items){Integer :number} DB.identifier_output_method = @iom DB.identifier_input_method = @iim ds = DB[:items]. with_identifier_output_method(:reverse). with_identifier_input_method(:reverse) begin DB.schema(ds, :reload=>true).must_be_kind_of(Array) DB.schema(ds, :reload=>true).first.first.must_equal :number ensure DB.identifier_output_method = :reverse DB.identifier_input_method = :reverse DB.drop_table(:items) end end end if IDENTIFIER_MANGLING && !DB.frozen? it "should not issue an sql query if the schema has been loaded unless :reload is true" do DB.create_table!(:items){Integer :number} DB.schema(:items, :reload=>true) DB.schema(:items) DB.schema(:items, :reload=>true) end it "Model schema should include columns in the table, even if they aren't selected" do DB.create_table!(:items){String :a; Integer :number} m = Sequel::Model(DB[:items].select(:a)) m.columns.must_equal [:a] m.db_schema[:number][:type].must_equal :integer end it "should raise an error when the table doesn't exist" do proc{DB.schema(:no_table)}.must_raise(Sequel::Error, Sequel::DatabaseError) end it "should return the schema correctly" do DB.create_table!(:items){Integer :number} schema = DB.schema(:items, :reload=>true) schema.must_be_kind_of(Array) schema.length.must_equal 1 col = schema.first col.must_be_kind_of(Array) col.length.must_equal 2 col.first.must_equal :number col_info = col.last col_info.must_be_kind_of(Hash) col_info[:type].must_equal :integer DB.schema(:items) end it "should parse primary keys from the schema properly" do DB.create_table!(:items){Integer :number} DB.schema(:items).collect{|k,v| k if v[:primary_key]}.compact.must_equal [] DB.create_table!(:items){primary_key :number} DB.schema(:items).collect{|k,v| k if v[:primary_key]}.compact.must_equal [:number] DB.create_table!(:items){Integer :number1; Integer :number2; primary_key [:number1, :number2]} DB.schema(:items).collect{|k,v| k if v[:primary_key]}.compact.must_equal [:number1, :number2] end cspecify "should parse autoincrementing primary keys from the schema properly", :sqlite, :oracle do DB.create_table!(:items){Integer :number} DB.schema(:items).collect{|k,v| k if v[:primary_key] && v[:auto_increment]}.compact.must_equal [] DB.create_table!(:items){primary_key :number} DB.schema(:items).collect{|k,v| k if v[:primary_key] && v[:auto_increment]}.compact.must_equal [:number] DB.create_table!(:items){Integer :number, :primary_key=>true} DB.schema(:items).collect{|k,v| k if v[:primary_key] && v[:auto_increment]}.compact.must_equal [] end it "should parse NULL/NOT NULL from the schema properly" do DB.create_table!(:items){Integer :number, :null=>true} DB.schema(:items).first.last[:allow_null].must_equal true DB.create_table!(:items){Integer :number, :null=>false} DB.schema(:items).first.last[:allow_null].must_equal false end it "should parse defaults from the schema properly" do DB.create_table!(:items){Integer :number} DB.schema(:items).first.last[:ruby_default].must_be_nil DB.create_table!(:items){Integer :number, :default=>0} DB.schema(:items).first.last[:ruby_default].must_equal 0 DB.create_table!(:items){String :a, :default=>"blah"} DB.schema(:items).first.last[:ruby_default].must_equal 'blah' end it "should make :default nil for a NULL default" do DB.create_table!(:items){Integer :number} DB.schema(:items).first.last[:default].must_be_nil DB.create_table!(:items){Integer :number, :default=>0} DB.schema(:items).first.last[:default].wont_equal nil end it "should parse current timestamp defaults from the schema properly" do DB.create_table!(:items){Time :a, :default=>Sequel::CURRENT_TIMESTAMP} DB.schema(:items).first.last[:ruby_default].must_equal Sequel::CURRENT_TIMESTAMP end cspecify "should parse current date defaults from the schema properly", [proc{|db| !db.mariadb? || db.server_version <= 100200}, :mysql], :oracle do DB.create_table!(:items){Date :a, :default=>Sequel::CURRENT_DATE} DB.schema(:items).first.last[:ruby_default].must_equal Sequel::CURRENT_DATE end cspecify "should parse types from the schema properly", [:jdbc, :db2], :oracle do DB.create_table!(:items){Integer :number} DB.schema(:items).first.last[:type].must_equal :integer DB.create_table!(:items){Fixnum :number} DB.schema(:items).first.last[:type].must_equal :integer DB.create_table!(:items){Bignum :number} DB.schema(:items).first.last[:type].must_equal :integer DB.create_table!(:items){Float :number} DB.schema(:items).first.last[:type].must_equal :float DB.create_table!(:items){BigDecimal :number, :size=>[11, 2]} DB.schema(:items).first.last[:type].must_equal :decimal DB.create_table!(:items){Numeric :number, :size=>[12, 0]} DB.schema(:items).first.last[:type].must_equal :integer DB.create_table!(:items){String :number} DB.schema(:items).first.last[:type].must_equal :string DB.create_table!(:items){Date :number} DB.schema(:items).first.last[:type].must_equal :date DB.create_table!(:items){Time :number} DB.schema(:items).first.last[:type].must_equal :datetime DB.create_table!(:items){DateTime :number} DB.schema(:items).first.last[:type].must_equal :datetime DB.create_table!(:items){File :number} DB.schema(:items).first.last[:type].must_equal :blob DB.create_table!(:items){TrueClass :number} DB.schema(:items).first.last[:type].must_equal :boolean DB.create_table!(:items){FalseClass :number} DB.schema(:items).first.last[:type].must_equal :boolean end it "should round trip database types from the schema properly" do DB.create_table!(:items){String :number, :size=>50} db_type = DB.schema(:items).first.last[:db_type] DB.create_table!(:items){column :number, db_type} DB.schema(:items).first.last[:db_type].must_equal db_type DB.create_table!(:items){Numeric :number, :size=>[11,3]} db_type = DB.schema(:items).first.last[:db_type] DB.create_table!(:items){column :number, db_type} DB.schema(:items).first.last[:db_type].must_equal db_type end it "should parse maximum length for string columns" do DB.create_table!(:items){String :a, :size=>4} DB.schema(:items).first.last[:max_length].must_equal 4 DB.create_table!(:items){String :a, :fixed=>true, :size=>3} DB.schema(:items).first.last[:max_length].must_equal 3 end end if DB.supports_schema_parsing? describe "Database index parsing" do after do DB.drop_table?(:items) end it "should parse indexes into a hash" do [:items, Sequel.identifier(:items)].each do |table| # Delete :deferrable entry, since not all adapters implement it f = lambda{h = DB.indexes(table); h.values.each{|h2| h2.delete(:deferrable)}; h} DB.create_table!(table){Integer :n; Integer :a} f.call.must_equal({}) DB.add_index(table, :n) f.call.must_equal(:items_n_index=>{:columns=>[:n], :unique=>false}) DB.drop_index(table, :n) f.call.must_equal({}) DB.add_index(table, :n, :unique=>true, :name=>:blah_blah_index) f.call.must_equal(:blah_blah_index=>{:columns=>[:n], :unique=>true}) DB.add_index(table, [:n, :a]) f.call.must_equal(:blah_blah_index=>{:columns=>[:n], :unique=>true}, :items_n_a_index=>{:columns=>[:n, :a], :unique=>false}) DB.drop_index(table, :n, :name=>:blah_blah_index) f.call.must_equal(:items_n_a_index=>{:columns=>[:n, :a], :unique=>false}) DB.drop_index(table, [:n, :a]) f.call.must_equal({}) end end it "should not include a primary key index" do DB.create_table!(:items){primary_key :n} DB.indexes(:items).must_equal({}) DB.create_table!(:items){Integer :n; Integer :a; primary_key [:n, :a]} DB.indexes(:items).must_equal({}) end cspecify "should not include partial indexes", [proc{|db| db.sqlite_version < 30808}, :sqlite] do DB.create_table!(:items){Integer :n; Integer :a; index :n, :where=>proc{n > 10}} DB.indexes(:items).must_equal({}) end if DB.supports_partial_indexes? end if DB.supports_index_parsing? describe "Database foreign key parsing" do before do @db = DB @pr = lambda do |table, *expected| actual = @db.foreign_key_list(table).sort_by{|c| c[:columns].map{|s| s.to_s}.join << (c[:key]||[]).map{|s| s.to_s}.join}.map{|v| v.values_at(:columns, :table, :key)} actual.zip(expected).each do |a, e| if e.last.first == :pk if a.last == nil a.pop e.pop else e.last.shift end end a.must_equal e end actual.length.must_equal expected.length end end after do @db.drop_table?(:b, :a) end it "should parse foreign key information into an array of hashes" do @db.create_table!(:a, :engine=>:InnoDB){primary_key :c; Integer :d, :null => false, :unique => true} @db.create_table!(:b, :engine=>:InnoDB){foreign_key :e, :a} @pr[:a] @pr[:b, [[:e], :a, [:pk, :c]]] @db.alter_table(:b){add_foreign_key :f, :a, :key=>[:d]} @pr[:b, [[:e], :a, [:pk, :c]], [[:f], :a, [:d]]] @db.alter_table(:b){add_foreign_key [:f], :a, :key=>[:c]} @pr[:b, [[:e], :a, [:pk, :c]], [[:f], :a, [:c]], [[:f], :a, [:d]]] @db.alter_table(:a){add_unique_constraint [:d, :c]} @db.alter_table(:b){add_foreign_key [:f, :e], :a, :key=>[:d, :c]} @pr[:b, [[:e], :a, [:pk, :c]], [[:f], :a, [:c]], [[:f], :a, [:d]], [[:f, :e], :a, [:d, :c]]] @db.alter_table(:b){drop_foreign_key [:f, :e]} @pr[:b, [[:e], :a, [:pk, :c]], [[:f], :a, [:c]], [[:f], :a, [:d]]] @db.alter_table(:b){drop_foreign_key :e} @pr[:b, [[:f], :a, [:c]], [[:f], :a, [:d]]] proc{@db.alter_table(:b){drop_foreign_key :f}}.must_raise(Sequel::Error, Sequel::DatabaseError) @pr[:b, [[:f], :a, [:c]], [[:f], :a, [:d]]] end it "should handle composite foreign and primary keys" do @db.create_table!(:a, :engine=>:InnoDB){Integer :b, :null=>false; Integer :c, :null=>false; Integer :d, :null=>false; primary_key [:b, :c]; unique [:d, :c]} @db.create_table!(:b, :engine=>:InnoDB){Integer :e, :null=>false; Integer :f, :null=>false; Integer :g, :null=>false; foreign_key [:e, :f], :a; foreign_key [:g, :f], :a, :key=>[:d, :c]} @pr[:b, [[:e, :f], :a, [:pk, :b, :c]], [[:g, :f], :a, [:d, :c]]] end it "should handle self-referential composite foreign and primary keys" do @db.create_table!(:a, :engine=>:InnoDB){Integer :b, :null=>false; Integer :c, :null=>false; Integer :d, :null=>false; primary_key [:b, :c]; unique [:d, :b]} @db.alter_table(:a){add_foreign_key [:b, :d], :a; add_foreign_key [:d, :c], :a; add_foreign_key [:c, :b], :a, :key=>[:d, :b]} @pr[:a, [[:b, :d], :a, [:pk, :b, :c]], [[:c, :b], :a, [:d, :b]], [[:d, :c], :a, [:pk, :b, :c]]] end end if DB.supports_foreign_key_parsing? describe "Database schema modifiers" do before do @db = DB @ds = @db[:items] end after do # Use instead of drop_table? to work around issues on jdbc/db2 @db.drop_table(:items) rescue nil @db.drop_table(:items2) rescue nil end it "should create tables correctly" do @db.create_table!(:items){Integer :number} @db.table_exists?(:items).must_equal true @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number] @ds.insert([10]) @ds.columns!.must_equal [:number] end it "should create tables from select statements correctly" do @db.create_table!(:items){Integer :number} @ds.insert([10]) @db.create_table(:items2, :as=>@db[:items]) @db.schema(:items2, :reload=>true).map{|x| x.first}.must_equal [:number] @db[:items2].columns.must_equal [:number] @db[:items2].all.must_equal [{:number=>10}] end it "should not raise an error if table doesn't exist when using drop_table :if_exists" do @db.drop_table(:items, :if_exists=>true) end if DB.supports_drop_table_if_exists? describe "views" do before do @db.drop_view(:items_view2) rescue nil @db.drop_view(:items_view) rescue nil @db.create_table!(:items){Integer :number} @ds.insert(:number=>1) @ds.insert(:number=>2) end after do @db.drop_view(:items_view2) rescue nil @db.drop_view(:items_view) rescue nil end it "should create views correctly" do @db.create_view(:items_view, @ds.where(:number=>1)) @db[:items_view].map(:number).must_equal [1] end it "should create views with check options correctly" do @db.create_view(:items_view, @ds.where{number > 2}, :check=>true) proc{@db[:items_view].insert(1)}.must_raise(Sequel::DatabaseError) @db[:items_view].insert(3) @db[:items_view].select_order_map(:number).must_equal [3] @db.create_view(:items_view2, @db[:items_view].where{number > 1}, :check=>true) proc{@db[:items_view2].insert(1)}.must_raise(Sequel::DatabaseError) proc{@db[:items_view2].insert(2)}.must_raise(Sequel::DatabaseError) @db[:items_view2].insert(4) @db[:items_view2].select_order_map(:number).must_equal [3, 4] @ds.select_order_map(:number).must_equal [1, 2, 3, 4] end if DB.supports_views_with_check_option? it "should create views with local check options correctly" do @db.create_view(:items_view, @ds.where{number > 2}) @db[:items_view].insert(3) @db[:items_view].select_order_map(:number).must_equal [3] @db.create_view(:items_view2, @db[:items_view].where{number > 1}, :check=>:local) proc{@db[:items_view2].insert(1)}.must_raise(Sequel::DatabaseError) @db[:items_view2].insert(2) @db[:items_view2].insert(4) @db[:items_view2].select_order_map(:number).must_equal [3, 4] @ds.select_order_map(:number).must_equal [1, 2, 2, 3, 4] end if DB.supports_views_with_local_check_option? cspecify "should create views with explicit columns correctly", [proc{|db| db.sqlite_version < 30900}, :sqlite] do @db.create_view(:items_view, @ds.where(:number=>1), :columns=>[:n]) @db[:items_view].map(:n).must_equal [1] end it "should drop views correctly" do @db.create_view(:items_view, @ds.where(:number=>1)) @db.drop_view(:items_view) proc{@db[:items_view].map(:number)}.must_raise(Sequel::DatabaseError) end it "should not raise an error if view doesn't exist when using drop_view :if_exists" do @db.drop_view(:items_view, :if_exists=>true) end if DB.supports_drop_table_if_exists? it "should create or replace views correctly" do @db.create_or_replace_view(:items_view, @ds.where(:number=>1)) @db[:items_view].map(:number).must_equal [1] @db.create_or_replace_view(:items_view, @ds.where(:number=>2)) @db[:items_view].map(:number).must_equal [2] end end it "should handle create table in a rolled back transaction" do @db.drop_table?(:items) @db.transaction(:rollback=>:always){@db.create_table(:items){Integer :number}} @db.table_exists?(:items).must_equal false end if DB.supports_transactional_ddl? it "should handle errors creating indexes when ignoring index errors" do @db.drop_table?(:items) @db.transaction do @db.create_table(:items, :ignore_index_errors=>true) do Integer :n1 Integer :n2 index :n1, :name=>'items_n1' index :foo, :name=>'items_f' index :n2, :name=>'items_n2' index :bar, :name=>'items_g' end end @db.table_exists?(:items).must_equal true indexes = @db.indexes(:items).keys indexes.must_include :items_n1 indexes.must_include :items_n2 indexes.wont_include :items_f indexes.wont_include :items_g end if DB.supports_transactional_ddl? && DB.database_type != :mssql describe "join tables" do after do @db.drop_join_table(:cat_id=>:cats, :dog_id=>:dogs) if @db.table_exists?(:cats_dogs) @db.drop_table(:cats, :dogs) @db.table_exists?(:cats_dogs).must_equal false end it "should create join tables correctly" do @db.create_table!(:cats){primary_key :id} @db.create_table!(:dogs){primary_key :id} @db.create_join_table(:cat_id=>:cats, :dog_id=>:dogs) @db.table_exists?(:cats_dogs).must_equal true end end it "should create temporary tables without raising an exception" do @db.create_table!(:items_temp, :temp=>true){Integer :number} end it "should have create_table? only create the table if it doesn't already exist" do @db.create_table!(:items){String :a} @db.create_table?(:items){String :b} @db[:items].columns.must_equal [:a] @db.drop_table?(:items) @db.create_table?(:items){String :b} @db[:items].columns.must_equal [:b] end it "should have create_table? work correctly with indexes" do @db.create_table!(:items){String :a, :index=>true} @db.create_table?(:items){String :b, :index=>true} @db[:items].columns.must_equal [:a] @db.drop_table?(:items) @db.create_table?(:items){String :b, :index=>true} @db[:items].columns.must_equal [:b] end it "should rename tables correctly" do @db.drop_table?(:items) @db.create_table!(:items2){Integer :number} @db.rename_table(:items2, :items) @db.table_exists?(:items).must_equal true @db.table_exists?(:items2).must_equal false @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number] @ds.insert([10]) @ds.columns!.must_equal [:number] end it "should allow creating indexes with tables" do @db.create_table!(:items){Integer :number; index :number} @db.table_exists?(:items).must_equal true @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number] @ds.insert([10]) @ds.columns!.must_equal [:number] end it "should allow creating partial indexes with tables" do @db.create_table!(:items){Integer :number; index :number, :where=>proc{number > 10}} @db.table_exists?(:items).must_equal true @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number] @ds.insert([10]) @ds.columns!.must_equal [:number] end if DB.supports_partial_indexes? it "should handle combination of default, unique, and not null" do @db.create_table!(:items){Integer :number, :default=>0, :null=>false, :unique=>true} @db.table_exists?(:items).must_equal true @db.schema(:items, :reload=>true).map{|x| x.last}.first.values_at(:ruby_default, :allow_null).must_equal [0, false] @ds.insert([10]) end it "should be able to specify constraint names for column constraints" do @db.create_table!(:items2){primary_key :id, :primary_key_constraint_name=>:foo_pk} @db.create_table!(:items){foreign_key :id, :items2, :unique=>true, :foreign_key_constraint_name => :foo_fk, :unique_constraint_name => :foo_uk, :null=>false} @db.alter_table(:items){drop_constraint :foo_fk, :type=>:foreign_key; drop_constraint :foo_uk, :type=>:unique} @db.alter_table(:items2){drop_constraint :foo_pk, :type=>:primary_key} end it "should handle foreign keys correctly when creating tables" do @db.create_table!(:items) do primary_key :id foreign_key :item_id, :items unique [:item_id, :id] foreign_key [:id, :item_id], :items, :key=>[:item_id, :id] end @db.table_exists?(:items).must_equal true @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :item_id] @ds.columns!.must_equal [:id, :item_id] end it "should add columns to tables correctly" do @db.create_table!(:items){Integer :number} @ds.insert(:number=>10) @db.alter_table(:items){add_column :name, String} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number, :name] @ds.columns!.must_equal [:number, :name] @ds.all.must_equal [{:number=>10, :name=>nil}] end cspecify "should add primary key columns to tables correctly", :derby do @db.create_table!(:items){Integer :number} @ds.insert(:number=>10) @db.alter_table(:items){add_primary_key :id} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:number, :id] @ds.columns!.must_equal [:number, :id] @ds.map(:number).must_equal [10] proc{@ds.insert(:id=>@ds.map(:id).first)}.must_raise Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError end it "should drop primary key constraints from tables correctly" do @db.create_table!(:items){Integer :number; primary_key [:number], :name=>:items_pk} @ds.insert(:number=>10) @db.alter_table(:items){drop_constraint :items_pk, :type=>:primary_key} @ds.map(:number).must_equal [10] @ds.insert(10) end it "should add foreign key columns to tables correctly" do @db.create_table!(:items){primary_key :id} @ds.insert i = @ds.get(:id) @db.alter_table(:items){add_foreign_key :item_id, :items} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :item_id] @ds.columns!.must_equal [:id, :item_id] @ds.all.must_equal [{:id=>i, :item_id=>nil}] end it "should not allow NULLs in a primary key" do @db.create_table!(:items){String :id, :primary_key=>true} proc{@ds.insert(:id=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end it "should not allow NULLs when adding a primary key column" do @db.create_table!(:items){String :foo} @db.alter_table(:items){add_column :id, String, :primary_key=>true, :default=>'a'} proc{@ds.insert(:id=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end it "should not allow NULLs when creating table with primary key constraint" do @db.create_table!(:items){String :id1; String :id2; primary_key [:id1, :id2]} proc{@ds.insert(:id1=>nil, :id2=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) proc{@ds.insert(:id1=>nil, :id2=>'1')}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) proc{@ds.insert(:id1=>'1', :id2=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end it "should not allow NULLs when adding a primary key constraint" do @db.create_table!(:items){String :id1; String :id2} @db.alter_table(:items){add_primary_key [:id1, :id2]} proc{@ds.insert(:id1=>nil, :id2=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) proc{@ds.insert(:id1=>nil, :id2=>'1')}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) proc{@ds.insert(:id1=>'1', :id2=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end it "should rename columns correctly" do @db.create_table!(:items){Integer :id} @ds.insert(:id=>10) @db.alter_table(:items){rename_column :id, :id2} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id2] @ds.columns!.must_equal [:id2] @ds.all.must_equal [{:id2=>10}] end it "should rename columns with defaults correctly" do @db.create_table!(:items){String :n, :default=>'blah'} @ds.insert @db.alter_table(:items){rename_column :n, :n2} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:n2] @ds.columns!.must_equal [:n2] @ds.insert @ds.all.must_equal [{:n2=>'blah'}, {:n2=>'blah'}] end it "should rename columns with not null constraints" do @db.create_table!(:items, :engine=>:InnoDB){String :n, :null=>false} @ds.insert(:n=>'blah') @db.alter_table(:items){rename_column :n, :n2} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:n2] @ds.columns!.must_equal [:n2] @ds.insert(:n2=>'blah') @ds.all.must_equal [{:n2=>'blah'}, {:n2=>'blah'}] proc{@ds.insert(:n=>nil)}.must_raise(Sequel::DatabaseError) end it "should rename columns when the table is referenced by a foreign key" do @db.create_table!(:items2){primary_key :id; Integer :a} @db.create_table!(:items){Integer :id, :primary_key=>true; foreign_key :items_id, :items2} @db[:items2].insert(:a=>10) @ds.insert(:id=>1) @db.alter_table(:items2){rename_column :a, :b} @db[:items2].insert(:b=>20) @ds.insert(:id=>2) @db[:items2].select_order_map([:id, :b]).must_equal [[1, 10], [2, 20]] end cspecify "should rename primary_key columns correctly", :db2 do @db.create_table!(:items){Integer :id, :primary_key=>true} @ds.insert(:id=>10) @db.alter_table(:items){rename_column :id, :id2} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id2] @ds.columns!.must_equal [:id2] @ds.all.must_equal [{:id2=>10}] end cspecify "should set column NULL/NOT NULL correctly", [:jdbc, :db2] do @db.create_table!(:items, :engine=>:InnoDB){Integer :id} @ds.insert(:id=>10) @db.alter_table(:items){set_column_allow_null :id, false} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] @ds.columns!.must_equal [:id] proc{@ds.insert(:id=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.alter_table(:items){set_column_allow_null :id, true} @ds.insert(:id=>nil) @ds.all.must_equal [{:id=>10}, {:id=>nil}] end it "should set column defaults correctly" do @db.create_table!(:items){Integer :id} @ds.insert(:id=>10) @db.alter_table(:items){set_column_default :id, 20} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] @ds.columns!.must_equal [:id] @ds.insert @ds.all.must_equal [{:id=>10}, {:id=>20}] end cspecify "should set column types correctly", [:jdbc, :db2], :oracle do @db.create_table!(:items){Integer :id} @ds.insert(:id=>10) @db.alter_table(:items){set_column_type :id, String} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] @ds.columns!.must_equal [:id] @ds.insert(:id=>'20') @ds.order(:id).all.must_equal [{:id=>"10"}, {:id=>"20"}] end cspecify "should set column types without modifying NULL/NOT NULL", [:jdbc, :db2], :derby do @db.create_table!(:items){Integer :id, :null=>false, :default=>2} proc{@ds.insert(:id=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.alter_table(:items){set_column_type :id, String} proc{@ds.insert(:id=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.create_table!(:items){Integer :id} @ds.insert(:id=>nil) @db.alter_table(:items){set_column_type :id, String} @ds.insert(:id=>nil) @ds.map(:id).must_equal [nil, nil] end cspecify "should set column types without modifying defaults", [:jdbc, :db2], :oracle, :derby do @db.create_table!(:items){Integer :id, :default=>0} @ds.insert @ds.map(:id).must_equal [0] @db.alter_table(:items){set_column_type :id, String} @ds.insert @ds.map(:id).must_equal ['0', '0'] @db.create_table!(:items){String :id, :default=>'a'} @ds.insert @ds.map(:id).must_equal %w'a' @db.alter_table(:items){set_column_type :id, String, :size=>1} @ds.insert @ds.map(:id).must_equal %w'a a' end it "should add unnamed unique constraints and foreign key table constraints correctly" do @db.create_table!(:items, :engine=>:InnoDB){Integer :id, :null => false; Integer :item_id, :null => false} @db.alter_table(:items) do add_unique_constraint [:item_id, :id] add_foreign_key [:id, :item_id], :items, :key=>[:item_id, :id] end @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :item_id] @ds.columns!.must_equal [:id, :item_id] @ds.insert(1, 1) proc{@ds.insert(1, 1)}.must_raise Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError proc{@ds.insert(1, 2)}.must_raise Sequel::ForeignKeyConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError end it "should add named unique constraints and foreign key table constraints correctly" do @db.create_table!(:items, :engine=>:InnoDB){Integer :id, :null=>false; Integer :item_id, :null=>false} @db.alter_table(:items) do add_unique_constraint [:item_id, :id], :name=>:unique_iii add_foreign_key [:id, :item_id], :items, :key=>[:item_id, :id], :name=>:fk_iii end @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :item_id] @ds.columns!.must_equal [:id, :item_id] @ds.insert(1, 1) proc{@ds.insert(1, 1)}.must_raise Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError proc{@ds.insert(1, 2)}.must_raise Sequel::ForeignKeyConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError end it "should drop unique constraints and foreign key table constraints correctly" do @db.create_table!(:items) do Integer :id Integer :item_id unique [:item_id, :id], :name=>:items_uk foreign_key [:id, :item_id], :items, :key=>[:item_id, :id], :name=>:items_fk end @db.alter_table(:items) do drop_constraint(:items_fk, :type=>:foreign_key) drop_constraint(:items_uk, :type=>:unique) end @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :item_id] @ds.columns!.must_equal [:id, :item_id] @ds.insert(1, 2) @ds.insert(1, 2) end it "should remove columns from tables correctly" do @db.create_table!(:items) do primary_key :id Integer :i end @ds.insert(:i=>10) @db.drop_column(:items, :i) @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] end it "should remove columns with defaults from tables correctly" do @db.create_table!(:items) do primary_key :id Integer :i, :default=>20 end @ds.insert(:i=>10) @db.drop_column(:items, :i) @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] end it "should remove foreign key columns from tables correctly" do @db.create_table!(:items, :engine=>:InnoDB) do primary_key :id Integer :i foreign_key :item_id, :items end @ds.insert(:i=>10) @db.alter_table(:items){drop_foreign_key :item_id} @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :i] end if DB.supports_foreign_key_parsing? it "should remove multiple columns in a single alter_table block" do @db.create_table!(:items) do primary_key :id String :name Integer :number end @ds.insert(:number=>10) @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id, :name, :number] @db.alter_table(:items) do drop_column :name drop_column :number end @db.schema(:items, :reload=>true).map{|x| x.first}.must_equal [:id] end cspecify "should work correctly with many operations in a single alter_table call", [:jdbc, :db2] do @db.create_table!(:items) do primary_key :id String :name2 String :number2 constraint :bar, Sequel.~(:number2=>nil, :name2=>nil) end @ds.insert(:name2=>'A12') @db.alter_table(:items) do add_column :number, Integer drop_constraint :bar drop_column :number2 rename_column :name2, :name set_column_not_null :name set_column_default :name, 'A13' add_constraint :foo, Sequel.like(:name, 'A%') end @db[:items].first.must_equal(:id=>1, :name=>'A12', :number=>nil) @db[:items].delete proc{@db[:items].insert(:name=>nil)}.must_raise(Sequel::NotNullConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db[:items].insert(:number=>1) @db[:items].get(:name).must_equal 'A13' end it "should support deferrable foreign key constraints" do @db.create_table!(:items2){Integer :id, :primary_key=>true} @db.create_table!(:items){foreign_key :id, :items2, :deferrable=>true} proc{@db[:items].insert(1)}.must_raise(Sequel::ForeignKeyConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.transaction{proc{@db[:items].insert(1)}}.must_raise(Sequel::ForeignKeyConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end if DB.supports_deferrable_foreign_key_constraints? it "should support deferrable unique constraints when creating or altering tables" do @db.create_table!(:items){Integer :t; unique [:t], :name=>:atest_def, :deferrable=>true, :using=>:btree} @db[:items].insert(1) @db[:items].insert(2) proc{@db[:items].insert(2)}.must_raise(Sequel::DatabaseError, Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.transaction{proc{@db[:items].insert(2)}}.must_raise(Sequel::DatabaseError, Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.create_table!(:items){Integer :t} @db.alter_table(:items){add_unique_constraint [:t], :name=>:atest_def, :deferrable=>true, :using=>:btree} @db[:items].insert(1) @db[:items].insert(2) proc{@db[:items].insert(2)}.must_raise(Sequel::DatabaseError, Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) @db.transaction{proc{@db[:items].insert(2)}}.must_raise(Sequel::DatabaseError, Sequel::UniqueConstraintViolation, Sequel::ConstraintViolation, Sequel::DatabaseError) end if DB.supports_deferrable_constraints? end describe "Database#tables and #views" do before do class ::String @@xxxxx = 0 def xxxxx "xxxxx#{@@xxxxx += 1}" end end @db = DB @db.drop_view(:sequel_test_view) rescue nil @db.drop_table?(:sequel_test_table) @db.create_table(:sequel_test_table){Integer :a} @db.create_view :sequel_test_view, @db[:sequel_test_table] end after do @db.drop_view :sequel_test_view @db.drop_table :sequel_test_table end it "#tables should return an array of symbols" do ts = @db.tables ts.must_be_kind_of(Array) ts.each{|t| t.must_be_kind_of(Symbol)} ts.must_include(:sequel_test_table) ts.wont_include(:sequel_test_view) end if DB.supports_table_listing? it "#views should return an array of symbols" do ts = @db.views ts.must_be_kind_of(Array) ts.each{|t| t.must_be_kind_of(Symbol)} ts.wont_include(:sequel_test_table) ts.must_include(:sequel_test_view) end if DB.supports_view_listing? describe "with identifier mangling" do before do @iom = @db.identifier_output_method @iim = @db.identifier_input_method end after do @db.identifier_output_method = @iom @db.identifier_input_method = @iim end it "#tables should respect the database's identifier_output_method" do @db.identifier_output_method = :xxxxx @db.identifier_input_method = :xxxxx @db.tables.each{|t| t.to_s.must_match(/\Ax{5}\d+\z/)} end if DB.supports_table_listing? it "#views should respect the database's identifier_output_method" do @db.identifier_output_method = :xxxxx @db.identifier_input_method = :xxxxx @db.views.each{|t| t.to_s.must_match(/\Ax{5}\d+\z/)} end if DB.supports_view_listing? end if IDENTIFIER_MANGLING && !DB.frozen? end