require_relative "spec_helper" [nil, :postgres].each do |database_type| describe "DB#{"(#{database_type})" if database_type}" do before do if database_type == :postgres @db = Sequel.mock(:host=>"postgres") @db.extension :identifier_mangling @db.quote_identifiers = false else @db = Sequel.mock end end def expected_sqls(sqls, adapter_sqls=Sequel::OPTS) adapter_sqls.fetch(@db.database_type, sqls) end describe "#create_table" do it "should accept the table name" do @db.create_table(:cats){}.must_be_nil @db.sqls.must_equal ['CREATE TABLE cats ()'] end it "should accept an identifier table name" do @db.create_table(Sequel[:cats]){}.must_be_nil @db.sqls.must_equal ['CREATE TABLE cats ()'] end it "should accept a qualified table name" do @db.create_table(Sequel[:s][:cats]){}.must_be_nil @db.sqls.must_equal ['CREATE TABLE s.cats ()'] end it "should accept a multi-level qualified table name" do @db.create_table(Sequel[:s][:t][:cats]){}.must_be_nil @db.sqls.must_equal ['CREATE TABLE s.t.cats ()'] end with_symbol_splitting "should accept the table name with splittable symbols" do @db.create_table(:cats__cats) {} @db.sqls.must_equal ['CREATE TABLE cats.cats ()'] end it "should accept the table name in multiple formats" do @db.create_table(Sequel[:cats][:cats]) {} @db.create_table("cats__cats1") {} @db.create_table(Sequel.identifier(:cats__cats2)) {} @db.create_table(Sequel.qualify(:cats3, :cats)) {} @db.sqls.must_equal ['CREATE TABLE cats.cats ()', 'CREATE TABLE cats__cats1 ()', 'CREATE TABLE cats__cats2 ()', 'CREATE TABLE cats3.cats ()'] end it "should raise an error if the table name argument is not valid" do proc{@db.create_table(1) {}}.must_raise(Sequel::Error) proc{@db.create_table(Sequel.as(:cats, :c)) {}}.must_raise(Sequel::Error) end it "should remove cached schema entry" do @db.instance_variable_set(:@schemas, {'cats'=>[]}) @db.create_table(:cats){Integer :a} @db.instance_variable_get(:@schemas).must_be :empty? end it "should accept multiple columns" do @db.create_table(:cats) do column :id, :integer column :name, :text end @db.sqls.must_equal ['CREATE TABLE cats (id integer, name text)'] end it "should accept method calls as data types" do @db.create_table(:cats) do integer :id text :name end @db.sqls.must_equal ['CREATE TABLE cats (id integer, name text)'] end it "should transform types given as ruby classes to database-specific types" do @db.create_table(:cats) do String :a Integer :b Fixnum :c Bignum :d Float :e BigDecimal :f Date :g DateTime :h Time :i Numeric :j File :k TrueClass :l FalseClass :m column :n, Integer primary_key :o, :type=>String foreign_key :p, :f, :type=>Date end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (o varchar(255) PRIMARY KEY AUTOINCREMENT, a varchar(255), b integer, c integer, d bigint, e double precision, f numeric, g date, h timestamp, i timestamp, j numeric, k blob, l boolean, m boolean, n integer, p date REFERENCES f)'], :postgres => [ "CREATE TABLE cats (o text GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY, a text, b integer, c integer, d bigint, e double precision, f numeric, g date, h timestamp, i timestamp, j numeric, k bytea, l boolean, m boolean, n integer, p date REFERENCES f)" ] ) end it "should transform types given as ruby classes to database-specific types" do @db.default_string_column_size = 50 @db.create_table(:cats) do String :a String :a2, :size=>13 String :a3, :fixed=>true String :a4, :size=>13, :fixed=>true String :a5, :text=>true varchar :a6 varchar :a7, :size=>13 end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (a varchar(50), a2 varchar(13), a3 char(50), a4 char(13), a5 text, a6 varchar(50), a7 varchar(13))'], :postgres => ['CREATE TABLE cats (a text, a2 varchar(13), a3 char(50), a4 char(13), a5 text, a6 varchar(50), a7 varchar(13))'] ) end it "should allow the use of modifiers with ruby class types" do @db.create_table(:cats) do String :a, :size=>50 String :b, :text=>true String :c, :fixed=>true, :size=>40 Time :d, :only_time=>true BigDecimal :e, :size=>[11,2] end @db.sqls.must_equal ['CREATE TABLE cats (a varchar(50), b text, c char(40), d time, e numeric(11, 2))'] end it "should use clob type for String columns if database uses clob for text" do @db.extend(Module.new{private; def uses_clob_for_text?; true; end}) @db.create_table(:cats) do String :b, :text=>true end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (b clob)'], :postgres => ['CREATE TABLE cats (b text)'] ) end it "should allow the use of modifiers with ruby class types" do c = Class.new def c.name; 'Fixnum'; end @db.create_table(:cats) do column :a, c end @db.sqls.must_equal ['CREATE TABLE cats (a integer)'] end it "should raise an error if you use a ruby class that isn't handled" do proc{@db.create_table(:cats){column :a, Class}}.must_raise(Sequel::Error) end it "should accept primary key definition" do @db.create_table(:cats) do primary_key :id end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer PRIMARY KEY AUTOINCREMENT)'], :postgres => ['CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY)'] ) @db.create_table(:cats) do primary_key :id, :serial, :auto_increment => false end @db.sqls.must_equal ['CREATE TABLE cats (id serial PRIMARY KEY)'] @db.create_table(:cats) do primary_key :id, :type => :serial, :auto_increment => false end @db.sqls.must_equal ['CREATE TABLE cats (id serial PRIMARY KEY)'] @db.create_table(:cats) do Integer :a primary_key :id end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer PRIMARY KEY AUTOINCREMENT, a integer)'], :postgres => ['CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY, a integer)'] ) @db.create_table(:cats) do Integer :a primary_key :id, :Bignum end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id bigint PRIMARY KEY AUTOINCREMENT, a integer)'], :postgres => ['CREATE TABLE cats (id bigint GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY, a integer)'] ) @db.create_table(:cats) do Integer :a primary_key :id, :keep_order=>true end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (a integer, id integer PRIMARY KEY AUTOINCREMENT)'], :postgres => ['CREATE TABLE cats (a integer, id integer GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY)'] ) end it "should allow naming primary key constraint with :primary_key_constraint_name option" do @db.create_table(:cats) do primary_key :id, :primary_key_constraint_name=>:foo end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer CONSTRAINT foo PRIMARY KEY AUTOINCREMENT)'], :postgres => ['CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY CONSTRAINT foo PRIMARY KEY)'] ) end it "should automatically set primary key column NOT NULL if database doesn't do it automatically" do def @db.can_add_primary_key_constraint_on_nullable_columns?; false end @db.create_table(:cats) do primary_key :id end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer NOT NULL PRIMARY KEY AUTOINCREMENT)'], :postgres => ['CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY NOT NULL PRIMARY KEY)'] ) end it "should automatically set primary key column NOT NULL when adding constraint if database doesn't do it automatically" do def @db.can_add_primary_key_constraint_on_nullable_columns?; false end @db.create_table(:cats) do String :id primary_key [:id] end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id varchar(255) NOT NULL, PRIMARY KEY (id))'], :postgres => ['CREATE TABLE cats (id text NOT NULL, PRIMARY KEY (id))'] ) end it "should handle case where the primary key column cannot be found when adding NOT NULL constraint if database doesn't do it automatically" do def @db.can_add_primary_key_constraint_on_nullable_columns?; false end @db.create_table(:cats) do String Sequel[:id] primary_key [:id] end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id varchar(255), PRIMARY KEY (id))'], :postgres => ['CREATE TABLE cats (id text, PRIMARY KEY (id))'] ) end it "should handling splitting named column constraints into table constraints if unsupported" do def @db.supports_named_column_constraints?; false end @db.create_table(:cats) do primary_key :id, :primary_key_constraint_name=>:foo foreign_key :cat_id, :cats, :unique=>true, :unique_constraint_name=>:bar, :foreign_key_constraint_name=>:baz, :deferrable=>true, :key=>:foo_id, :on_delete=>:cascade, :on_update=>:restrict end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer AUTOINCREMENT, cat_id integer, CONSTRAINT foo PRIMARY KEY (id), CONSTRAINT baz FOREIGN KEY (cat_id) REFERENCES cats(foo_id) ON DELETE CASCADE ON UPDATE RESTRICT DEFERRABLE INITIALLY DEFERRED, CONSTRAINT bar UNIQUE (cat_id))'], :postgres => [ "CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY, cat_id integer, CONSTRAINT foo PRIMARY KEY (id), CONSTRAINT baz FOREIGN KEY (cat_id) REFERENCES cats(foo_id) ON DELETE CASCADE ON UPDATE RESTRICT DEFERRABLE INITIALLY DEFERRED, CONSTRAINT bar UNIQUE (cat_id))" ] ) end it "should handling splitting named column constraints into table constraints if unsupported using :primary_key and :unique options with hash values" do def @db.supports_named_column_constraints?; false end @db.create_table(:cats) do primary_key :id, :primary_key=>{:name=>:foo, :deferrable=>true} foreign_key :cat_id, :cats, :unique=>{:name=>:bar, :deferrable=>true}, :foreign_key_constraint_name=>:baz, :deferrable=>true, :key=>:foo_id, :on_delete=>:cascade, :on_update=>:restrict end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (id integer AUTOINCREMENT, cat_id integer, CONSTRAINT foo PRIMARY KEY (id) DEFERRABLE INITIALLY DEFERRED, CONSTRAINT baz FOREIGN KEY (cat_id) REFERENCES cats(foo_id) ON DELETE CASCADE ON UPDATE RESTRICT DEFERRABLE INITIALLY DEFERRED, CONSTRAINT bar UNIQUE (cat_id) DEFERRABLE INITIALLY DEFERRED)'], :postgres => [ 'CREATE TABLE cats (id integer GENERATED BY DEFAULT AS IDENTITY, cat_id integer, CONSTRAINT foo PRIMARY KEY (id) DEFERRABLE INITIALLY DEFERRED, CONSTRAINT baz FOREIGN KEY (cat_id) REFERENCES cats(foo_id) ON DELETE CASCADE ON UPDATE RESTRICT DEFERRABLE INITIALLY DEFERRED, CONSTRAINT bar UNIQUE (cat_id) DEFERRABLE INITIALLY DEFERRED)' ] ) end it "should accept and literalize default values" do @db.create_table(:cats) do integer :id, :default => 123 text :name, :default => "abc'def" end @db.sqls.must_equal ["CREATE TABLE cats (id integer DEFAULT 123, name text DEFAULT 'abc''def')"] end it "should accept not null definition" do @db.create_table(:cats) do integer :id text :name, :null => false text :name2, :allow_null => false end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text NOT NULL, name2 text NOT NULL)"] end it "should accept null definition" do @db.create_table(:cats) do integer :id text :name, :null => true text :name2, :allow_null => true end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text NULL, name2 text NULL)"] end it "should accept unique definition" do @db.create_table(:cats) do integer :id text :name, :unique => true end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text UNIQUE)"] end it "should allow naming unique constraint with :unique_constraint_name option" do @db.create_table(:cats) do text :name, :unique => true, :unique_constraint_name=>:foo end @db.sqls.must_equal ["CREATE TABLE cats (name text CONSTRAINT foo UNIQUE)"] end it "should handle not deferred unique constraints" do @db.create_table(:cats) do integer :id text :name unique :name, :deferrable=>false end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text, UNIQUE (name) NOT DEFERRABLE)"] end it "should handle deferred unique constraints" do @db.create_table(:cats) do integer :id text :name unique :name, :deferrable=>true end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text, UNIQUE (name) DEFERRABLE INITIALLY DEFERRED)"] end it "should handle deferred initially immediate unique constraints" do @db.create_table(:cats) do integer :id text :name unique :name, :deferrable=>:immediate end @db.sqls.must_equal ["CREATE TABLE cats (id integer, name text, UNIQUE (name) DEFERRABLE INITIALLY IMMEDIATE)"] end it "should handle deferred unique column constraints" do @db.create_table(:cats) do integer :id, :unique=>true, :unique_deferrable=>true integer :i, :unique=>true, :unique_deferrable=>:immediate integer :j, :unique=>true, :unique_deferrable=>false end @db.sqls.must_equal ["CREATE TABLE cats (id integer UNIQUE DEFERRABLE INITIALLY DEFERRED, i integer UNIQUE DEFERRABLE INITIALLY IMMEDIATE, j integer UNIQUE NOT DEFERRABLE)"] end it "should handle deferred primary key column constraints" do @db.create_table(:cats) do integer :id, :primary_key=>true, :primary_key_deferrable=>true integer :i, :primary_key=>true, :primary_key_deferrable=>:immediate integer :j, :primary_key=>true, :primary_key_deferrable=>false end @db.sqls.must_equal ["CREATE TABLE cats (id integer PRIMARY KEY DEFERRABLE INITIALLY DEFERRED, i integer PRIMARY KEY DEFERRABLE INITIALLY IMMEDIATE, j integer PRIMARY KEY NOT DEFERRABLE)"] end it "should handle :unique option with hash value for options for unique constraint" do @db.create_table(:cats) do integer :id, :unique=>{:name=>:u1, :deferrable=>true} integer :i, :unique=>{:name=>:u2, :deferrable=>:immediate} integer :j, :unique=>{:deferrable=>false} integer :k, :unique=>{:name=>:u3} end @db.sqls.must_equal ["CREATE TABLE cats (id integer CONSTRAINT u1 UNIQUE DEFERRABLE INITIALLY DEFERRED, i integer CONSTRAINT u2 UNIQUE DEFERRABLE INITIALLY IMMEDIATE, j integer UNIQUE NOT DEFERRABLE, k integer CONSTRAINT u3 UNIQUE)"] end it "should handle :primary_key option with hash value for options for primary key constraint" do @db.create_table(:cats) do integer :id, :primary_key=>{:name=>:p1, :deferrable=>true} integer :i, :primary_key=>{:name=>:p2, :deferrable=>:immediate} integer :j, :primary_key=>{:deferrable=>false} integer :k, :primary_key=>{:name=>:p3} end @db.sqls.must_equal ["CREATE TABLE cats (id integer CONSTRAINT p1 PRIMARY KEY DEFERRABLE INITIALLY DEFERRED, i integer CONSTRAINT p2 PRIMARY KEY DEFERRABLE INITIALLY IMMEDIATE, j integer PRIMARY KEY NOT DEFERRABLE, k integer CONSTRAINT p3 PRIMARY KEY)"] end it "should accept unsigned definition" do @db.create_table(:cats) do integer :value, :unsigned => true end @db.sqls.must_equal ["CREATE TABLE cats (value integer UNSIGNED)"] end it "should accept [SET|ENUM](...) types" do @db.create_table(:cats) do set :color, :elements => ['black', 'tricolor', 'grey'] end @db.sqls.must_equal ["CREATE TABLE cats (color set('black', 'tricolor', 'grey'))"] end it "should accept varchar size" do @db.create_table(:cats) do varchar :name end @db.sqls.must_equal ["CREATE TABLE cats (name varchar(255))"] @db.create_table(:cats) do varchar :name, :size => 51 end @db.sqls.must_equal ["CREATE TABLE cats (name varchar(51))"] end it "should use double precision for double type" do @db.create_table(:cats) do double :name end @db.sqls.must_equal ["CREATE TABLE cats (name double precision)"] end it "should accept foreign keys without options" do @db.create_table(:cats) do foreign_key :project_id end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer)"] end it "should accept foreign keys with options" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects)"] end it "should accept foreign keys with separate table argument" do @db.create_table(:cats) do foreign_key :project_id, :projects, :default=>3 end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer DEFAULT 3 REFERENCES projects)"] end it "should allowing naming foreign key constraint with :foreign_key_constraint_name option" do @db.create_table(:cats) do foreign_key :project_id, :projects, :foreign_key_constraint_name=>:foo end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer CONSTRAINT foo REFERENCES projects)"] end it "should raise an error if the table argument to foreign_key isn't a hash, symbol, or nil" do proc{@db.create_table(:cats){foreign_key :project_id, Object.new, :default=>3}}.must_raise(Sequel::Error) end it "should accept foreign keys with arbitrary keys" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :key => :id end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects(id))"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :key => :zzz end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects(zzz))"] end it "should accept foreign keys with ON DELETE clause" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :restrict end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE RESTRICT)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :cascade end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE CASCADE)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :no_action end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE NO ACTION)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :set_null end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE SET NULL)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :set_default end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE SET DEFAULT)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => 'NO ACTION FOO' end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE NO ACTION FOO)"] end it "should accept foreign keys with ON UPDATE clause" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => :restrict end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE RESTRICT)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => :cascade end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE CASCADE)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => :no_action end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE NO ACTION)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => :set_null end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE SET NULL)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => :set_default end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE SET DEFAULT)"] @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_update => 'SET DEFAULT FOO' end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON UPDATE SET DEFAULT FOO)"] end it "should accept foreign keys with deferrable option" do @db.create_table(:cats) do foreign_key :project_id, :projects, :deferrable=>true end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects DEFERRABLE INITIALLY DEFERRED)"] end it "should accept collation" do @db.create_table(:cats) do String :name, :collate => :utf8_bin end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (name varchar(255) COLLATE utf8_bin)'], :postgres => ['CREATE TABLE cats (name text COLLATE utf8_bin)'] ) end it "should accept collation as a String, treated literally" do @db.create_table(:cats) do String :name, :collate => '"utf8_bin"' end @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats (name varchar(255) COLLATE "utf8_bin")'], :postgres => ['CREATE TABLE cats (name text COLLATE "utf8_bin")'] ) end it "should accept inline index definition" do @db.create_table(:cats) do integer :id, :index => true end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_id_index ON cats (id)"] end it "should accept inline index definition for qualified table" do @db.create_table(Sequel[:sch][:cats]) do integer :id, :index => true end @db.sqls.must_equal ["CREATE TABLE sch.cats (id integer)", "CREATE INDEX sch_cats_id_index ON sch.cats (id)"] end it "should accept inline index definition with a hash of options" do @db.create_table(:cats) do integer :id, :index => {:unique=>true} end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE UNIQUE INDEX cats_id_index ON cats (id)"] end it "should accept inline index definition for foreign keys" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :cascade, :index => true end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE CASCADE)", "CREATE INDEX cats_project_id_index ON cats (project_id)"] end it "should accept inline index definition for foreign keys with a hash of options" do @db.create_table(:cats) do foreign_key :project_id, :table => :projects, :on_delete => :cascade, :index => {:unique=>true} end @db.sqls.must_equal ["CREATE TABLE cats (project_id integer REFERENCES projects ON DELETE CASCADE)", "CREATE UNIQUE INDEX cats_project_id_index ON cats (project_id)"] end it "should accept index definitions" do @db.create_table(:cats) do integer :id index :id end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_id_index ON cats (id)"] end it "should accept unique constraint definitions" do @db.create_table(:cats) do text :name unique :name end @db.sqls.must_equal ["CREATE TABLE cats (name text, UNIQUE (name))"] end it "should accept partial index definitions" do def @db.supports_partial_indexes?() true end @db.create_table(:cats) do integer :id index :id, :where=>proc{id > 1} end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_id_index ON cats (id) WHERE (id > 1)"] end it "should not raise on index error for unsupported index definitions if ignore_index_errors is used" do @db.create_table(:cats, :ignore_index_errors=>true) do text :name full_text_index :name end end if database_type == :postgres it "should allow full-text index definitions" do @db.create_table(:cats) do text :name full_text_index :name end @db.sqls.must_equal ["CREATE TABLE cats (name text)", "CREATE INDEX cats_name_index ON cats USING gin (to_tsvector('simple'::regconfig, (COALESCE(name, ''))))"] end it "should allow spatial index definitions" do @db.create_table(:cats) do point :geom spatial_index :geom end @db.sqls.must_equal ["CREATE TABLE cats (geom point)", "CREATE INDEX cats_geom_index ON cats USING gist (geom)"] end it "should allow partial index definitions" do @db.create_table(:cats) do text :name index :name, :where => {:something => true} end @db.sqls.must_equal ["CREATE TABLE cats (name text)", "CREATE INDEX cats_name_index ON cats (name) WHERE (something IS TRUE)"] end it "should allow index definitions with type" do @db.create_table(:cats) do text :name index :name, :type => :hash end @db.sqls.must_equal ["CREATE TABLE cats (name text)", "CREATE INDEX cats_name_index ON cats USING hash (name)"] end else it "should raise on full-text index definitions" do proc { @db.create_table(:cats) do text :name full_text_index :name end }.must_raise(Sequel::Error) end it "should raise on spatial index definitions" do proc { @db.create_table(:cats) do point :geom spatial_index :geom end }.must_raise(Sequel::Error) end it "should raise on partial index definitions" do proc { @db.create_table(:cats) do text :name index :name, :where => {:something => true} end }.must_raise(Sequel::Error) end it "should raise index definitions with type" do proc { @db.create_table(:cats) do text :name index :name, :type => :hash end }.must_raise(Sequel::Error) end end it "should ignore errors if the database raises an error on an index creation statement and the :ignore_index_errors option is used" do @db.define_singleton_method(:execute_ddl){|*a| raise Sequel::DatabaseError if /blah/ =~ a.first; super(*a)} lambda{@db.create_table(:cats){Integer :id; index :blah; index :id}}.must_raise(Sequel::DatabaseError) @db.sqls.must_equal ['CREATE TABLE cats (id integer)'] @db.create_table(:cats, :ignore_index_errors=>true){Integer :id; index :blah; index :id} @db.sqls.must_equal ['CREATE TABLE cats (id integer)', 'CREATE INDEX cats_id_index ON cats (id)'] end it "should not use savepoints around index creation if running inside a transaction if :ignore_index_errors option is used" do @db.define_singleton_method(:execute_ddl){|*a| super(*a); raise Sequel::DatabaseError if /blah/ =~ a.first} @db.transaction{@db.create_table(:cats, :ignore_index_errors=>true){Integer :id; index :blah; index :id}} @db.sqls.must_equal expected_sqls( ["BEGIN", "CREATE TABLE cats (id integer)", "CREATE INDEX cats_blah_index ON cats (blah)", "CREATE INDEX cats_id_index ON cats (id)", "COMMIT"], :postgres => [ "BEGIN", "CREATE TABLE cats (id integer)", "SAVEPOINT autopoint_1", "CREATE INDEX cats_blah_index ON cats (blah)", "ROLLBACK TO SAVEPOINT autopoint_1", "SAVEPOINT autopoint_1", "CREATE INDEX cats_id_index ON cats (id)", "RELEASE SAVEPOINT autopoint_1", "COMMIT" ] ) end it "should use savepoints around index creation if running inside a transaction if :ignore_index_errors option is used and transactional schema modifications are supported" do @db.define_singleton_method(:supports_transactional_ddl?){true} @db.define_singleton_method(:execute_ddl){|*a| super(*a); raise Sequel::DatabaseError if /blah/ =~ a.first} @db.transaction{@db.create_table(:cats, :ignore_index_errors=>true){Integer :id; index :blah; index :id}} @db.sqls.must_equal ["BEGIN", "CREATE TABLE cats (id integer)", "SAVEPOINT autopoint_1", "CREATE INDEX cats_blah_index ON cats (blah)", "ROLLBACK TO SAVEPOINT autopoint_1", "SAVEPOINT autopoint_1", "CREATE INDEX cats_id_index ON cats (id)", "RELEASE SAVEPOINT autopoint_1", "COMMIT"] end it "should accept multiple index definitions" do @db.create_table(:cats) do integer :id index :id index :name end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_id_index ON cats (id)", "CREATE INDEX cats_name_index ON cats (name)"] end it "should accept functional indexes" do @db.create_table(:cats) do integer :id index Sequel.function(:lower, :name) end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_lower_name__index ON cats (lower(name))"] end it "should accept indexes with identifiers" do @db.create_table(:cats) do integer :id index Sequel.identifier(:lower__name) end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX cats_lower__name_index ON cats (lower__name)"] end it "should accept custom index names" do @db.create_table(:cats) do integer :id index :id, :name => 'abc' end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE INDEX abc ON cats (id)"] end it "should accept unique index definitions" do @db.create_table(:cats) do integer :id index :id, :unique => true end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE UNIQUE INDEX cats_id_index ON cats (id)"] end it "should accept composite index definitions" do @db.create_table(:cats) do integer :id index [:id, :name], :unique => true end @db.sqls.must_equal ["CREATE TABLE cats (id integer)", "CREATE UNIQUE INDEX cats_id_name_index ON cats (id, name)"] end it "should accept unnamed constraint definitions with blocks" do @db.create_table(:cats) do integer :score check{(x > 0) & (y < 1)} end @db.sqls.must_equal ["CREATE TABLE cats (score integer, CHECK ((x > 0) AND (y < 1)))"] end it "should accept unnamed constraint definitions with function calls" do @db.create_table(:cats) do integer :score check{f(x)} end @db.sqls.must_equal ["CREATE TABLE cats (score integer, CHECK (f(x)))"] end it "should accept unnamed constraint definitions" do @db.create_table(:cats) do check 'price < ?', 100 end @db.sqls.must_equal ["CREATE TABLE cats (CHECK (price < 100))"] end it "should accept arrays of pairs constraints" do @db.create_table(:cats) do check [[:price, 100]] end @db.sqls.must_equal ["CREATE TABLE cats (CHECK (price = 100))"] end it "should accept hash constraints" do @db.create_table(:cats) do check :price=>100 end @db.sqls.must_equal ["CREATE TABLE cats (CHECK (price = 100))"] end it "should accept array constraints" do @db.create_table(:cats) do check [Sequel.expr(:x) > 0, Sequel.expr(:y) < 1] end @db.sqls.must_equal ["CREATE TABLE cats (CHECK ((x > 0) AND (y < 1)))"] end it "should accept expression constraints" do @db.create_table(:cats) do check Sequel.&(Sequel.expr(:x) > 0, Sequel.expr(:y) < 1) end @db.sqls.must_equal ["CREATE TABLE cats (CHECK ((x > 0) AND (y < 1)))"] end it "should accept named constraint definitions" do @db.create_table(:cats) do integer :score constraint :valid_score, 'score <= 100' end @db.sqls.must_equal ["CREATE TABLE cats (score integer, CONSTRAINT valid_score CHECK (score <= 100))"] end it "should accept named constraint definitions with options" do @db.create_table(:cats) do integer :score constraint({:name=>:valid_score, :deferrable=>true}, 'score <= 100') end @db.sqls.must_equal ["CREATE TABLE cats (score integer, CONSTRAINT valid_score CHECK (score <= 100) DEFERRABLE INITIALLY DEFERRED)"] end it "should accept named constraint definitions with block" do @db.create_table(:cats) do constraint(:blah_blah){(x.sql_number > 0) & (y.sql_number < 1)} end @db.sqls.must_equal ["CREATE TABLE cats (CONSTRAINT blah_blah CHECK ((x > 0) AND (y < 1)))"] end it "should raise an error if an invalid constraint type is used" do proc{@db.create_table(:cats){unique [:a, :b], :type=>:bb}}.must_raise(Sequel::Error) end it "should accept composite primary keys" do @db.create_table(:cats) do integer :a integer :b primary_key [:a, :b] end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, PRIMARY KEY (a, b))"] end it "should accept named composite primary keys" do @db.create_table(:cats) do integer :a integer :b primary_key [:a, :b], :name => :cpk end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, CONSTRAINT cpk PRIMARY KEY (a, b))"] end it "should accept composite foreign keys" do @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc)"] end it "should accept named composite foreign keys" do @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :name => :cfk end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, CONSTRAINT cfk FOREIGN KEY (a, b) REFERENCES abc)"] end it "should accept composite foreign keys with arbitrary keys" do @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :key => [:real_a, :real_b] end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc(real_a, real_b))"] @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :key => [:z, :x] end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc(z, x))"] end it "should accept composite foreign keys with on delete and on update clauses" do @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :on_delete => :cascade end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc ON DELETE CASCADE)"] @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :on_update => :no_action end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc ON UPDATE NO ACTION)"] @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :on_delete => :restrict, :on_update => :set_default end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc ON DELETE RESTRICT ON UPDATE SET DEFAULT)"] @db.create_table(:cats) do integer :a integer :b foreign_key [:a, :b], :abc, :key => [:x, :y], :on_delete => :set_null, :on_update => :set_null end @db.sqls.must_equal ["CREATE TABLE cats (a integer, b integer, FOREIGN KEY (a, b) REFERENCES abc(x, y) ON DELETE SET NULL ON UPDATE SET NULL)"] end it "should accept an :as option to create a table from the results of a dataset" do @db.create_table(:cats, :as=>@db[:a]) @db.sqls.must_equal ['CREATE TABLE cats AS SELECT * FROM a'] end it "should accept an :as option to create a table from a SELECT string" do @db.create_table(:cats, :as=>'SELECT * FROM a') @db.sqls.must_equal ['CREATE TABLE cats AS SELECT * FROM a'] end it "should raise an Error if both a block and an :as argument are given" do proc{@db.create_table(:cats, :as=>@db[:a]){}}.must_raise(Sequel::Error) end end describe "#create_table!" do it "should create the table if it does not exist" do @db.define_singleton_method(:table_exists?){|a| false} @db.create_table!(:cats){|*a|}.must_be_nil @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats ()'], :postgres => ['DROP TABLE IF EXISTS cats', 'CREATE TABLE cats ()'] ) end it "should drop the table before creating it if it already exists" do @db.define_singleton_method(:table_exists?){|a| true} @db.create_table!(:cats){|*a|} @db.sqls.must_equal expected_sqls( ['DROP TABLE cats', 'CREATE TABLE cats ()'], :postgres => [ 'DROP TABLE IF EXISTS cats', 'CREATE TABLE cats ()' ] ) end it "should use IF EXISTS if the database supports it" do @db.define_singleton_method(:supports_drop_table_if_exists?){true} @db.create_table!(:cats){|*a|} @db.sqls.must_equal ['DROP TABLE IF EXISTS cats', 'CREATE TABLE cats ()'] end end describe "#create_table?" do it "should not create the table if the table already exists" do @db.define_singleton_method(:table_exists?){|a| true} @db.create_table?(:cats){|*a|}.must_be_nil @db.sqls.must_equal expected_sqls( [], :postgres => ['CREATE TABLE IF NOT EXISTS cats ()'] ) end it "should create the table if the table doesn't already exist" do @db.define_singleton_method(:table_exists?){|a| false} @db.create_table?(:cats){|*a|} @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats ()'], :postgres => ['CREATE TABLE IF NOT EXISTS cats ()'] ) end it "should use IF NOT EXISTS if the database supports that" do @db.define_singleton_method(:supports_create_table_if_not_exists?){true} @db.create_table?(:cats){|*a|} @db.sqls.must_equal ['CREATE TABLE IF NOT EXISTS cats ()'] end it "should not use IF NOT EXISTS if the indexes are created" do @db.define_singleton_method(:table_exists?){|a| false} @db.define_singleton_method(:supports_create_table_if_not_exists?){true} @db.create_table?(:cats){|*a| Integer :a, :index=>true} @db.sqls.must_equal ['CREATE TABLE cats (a integer)', 'CREATE INDEX cats_a_index ON cats (a)'] @db.singleton_class.send(:alias_method, :table_exists?, :table_exists?) @db.define_singleton_method(:table_exists?){|a| true} @db.create_table?(:cats){|*a| Integer :a, :index=>true} @db.sqls.must_equal [] end end describe "#create_join_table" do it "should take a hash with foreign keys and table name values" do @db.create_join_table(:cat_id=>:cats, :dog_id=>:dogs).must_be_nil @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end it "should be able to have values be a hash of options" do @db.create_join_table(:cat_id=>{:table=>:cats, :null=>true}, :dog_id=>{:table=>:dogs, :default=>0}) @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NULL REFERENCES cats, dog_id integer DEFAULT 0 NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end it "should be able to pass a second hash of table options" do @db.create_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :temp=>true) @db.sqls.must_equal ['CREATE TEMPORARY TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end it "should recognize :name option in table options" do @db.create_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :name=>:f) @db.sqls.must_equal ['CREATE TABLE f (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX f_dog_id_cat_id_index ON f (dog_id, cat_id)'] end it "should recognize :index_options option in table options" do @db.create_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :index_options=>{:name=>:foo_index}) @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX foo_index ON cats_dogs (dog_id, cat_id)'] end it "should recognize :no_index option in table options" do @db.create_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :no_index=>true) @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))'] end it "should recognize :no_primary_key option in table options" do @db.create_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :no_primary_key=>true) @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs)', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end it "should raise an error if the hash doesn't have 2 entries with table names" do proc{@db.create_join_table({})}.must_raise(Sequel::Error) proc{@db.create_join_table({:cat_id=>:cats})}.must_raise(Sequel::Error) proc{@db.create_join_table({:cat_id=>:cats, :human_id=>:humans, :dog_id=>:dog})}.must_raise(Sequel::Error) proc{@db.create_join_table({:cat_id=>:cats, :dog_id=>{}})}.must_raise(Sequel::Error) end end describe "#create_join_table?" do it "should create the table if it does not already exist" do @db.define_singleton_method(:table_exists?){|a| false} @db.create_join_table?(:cat_id=>:cats, :dog_id=>:dogs).must_be_nil @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end it "should not create the table if it already exists" do @db.define_singleton_method(:table_exists?){|a| true} @db.create_join_table?(:cat_id=>:cats, :dog_id=>:dogs) @db.sqls.must_equal [] end it "should not use IF NOT EXISTS" do @db.define_singleton_method(:table_exists?){|a| false} @db.define_singleton_method(:supports_create_table_if_not_exists?){true} @db.create_join_table?(:cat_id=>:cats, :dog_id=>:dogs) @db.sqls.must_equal ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] @db.singleton_class.send(:alias_method, :table_exists?, :table_exists?) @db.define_singleton_method(:table_exists?){|a| true} @db.create_join_table?(:cat_id=>:cats, :dog_id=>:dogs) @db.sqls.must_equal [] end it "should not use IF NOT EXISTS if no_index is used" do @db.define_singleton_method(:supports_create_table_if_not_exists?){true} @db.create_join_table?({:cat_id=>:cats, :dog_id=>:dogs}, :no_index=>true) @db.sqls.must_equal ['CREATE TABLE IF NOT EXISTS cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))'] end end describe "#create_join_table!" do it "should drop the table first if it already exists" do @db.define_singleton_method(:table_exists?){|a| true} @db.create_join_table!(:cat_id=>:cats, :dog_id=>:dogs).must_be_nil @db.sqls.must_equal expected_sqls( ['DROP TABLE cats_dogs', 'CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'], :postgres => [ 'DROP TABLE IF EXISTS cats_dogs', 'CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)' ] ) end it "should not drop the table if it doesn't exists" do @db.define_singleton_method(:table_exists?){|a| false} @db.create_join_table!(:cat_id=>:cats, :dog_id=>:dogs) @db.sqls.must_equal expected_sqls( ['CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'], :postgres => [ 'DROP TABLE IF EXISTS cats_dogs', 'CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)' ] ) end it "should use IF EXISTS if the database supports it" do @db.define_singleton_method(:supports_drop_table_if_exists?){true} @db.create_join_table!(:cat_id=>:cats, :dog_id=>:dogs) @db.sqls.must_equal ['DROP TABLE IF EXISTS cats_dogs', 'CREATE TABLE cats_dogs (cat_id integer NOT NULL REFERENCES cats, dog_id integer NOT NULL REFERENCES dogs, PRIMARY KEY (cat_id, dog_id))', 'CREATE INDEX cats_dogs_dog_id_cat_id_index ON cats_dogs (dog_id, cat_id)'] end end describe "#drop_join_table" do it "should take a hash with foreign keys and table name values and drop the table" do @db.drop_join_table(:cat_id=>:cats, :dog_id=>:dogs).must_be_nil @db.sqls.must_equal ['DROP TABLE cats_dogs'] end it "should be able to have values be a hash of options" do @db.drop_join_table(:cat_id=>{:table=>:cats, :null=>true}, :dog_id=>{:table=>:dogs, :default=>0}) @db.sqls.must_equal ['DROP TABLE cats_dogs'] end it "should respect a second hash of table options" do @db.drop_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :cascade=>true) @db.sqls.must_equal ['DROP TABLE cats_dogs CASCADE'] end it "should respect :name option for table name" do @db.drop_join_table({:cat_id=>:cats, :dog_id=>:dogs}, :name=>:f) @db.sqls.must_equal ['DROP TABLE f'] end it "should raise an error if the hash doesn't have 2 entries with table names" do proc{@db.drop_join_table({})}.must_raise(Sequel::Error) proc{@db.drop_join_table({:cat_id=>:cats})}.must_raise(Sequel::Error) proc{@db.drop_join_table({:cat_id=>:cats, :human_id=>:humans, :dog_id=>:dog})}.must_raise(Sequel::Error) proc{@db.drop_join_table({:cat_id=>:cats, :dog_id=>{}})}.must_raise(Sequel::Error) end end describe "#drop_table" do it "should generate a DROP TABLE statement" do @db.drop_table(:cats).must_be_nil @db.sqls.must_equal ['DROP TABLE cats'] end it "should drop multiple tables at once" do @db.drop_table :cats, :dogs @db.sqls.must_equal ['DROP TABLE cats', 'DROP TABLE dogs'] end it "should take an options hash and support the :cascade option" do @db.drop_table :cats, :dogs, :cascade=>true @db.sqls.must_equal ['DROP TABLE cats CASCADE', 'DROP TABLE dogs CASCADE'] end end describe "#drop_table?" do it "should drop the table if it exists" do @db.define_singleton_method(:table_exists?){|a| true} @db.drop_table?(:cats).must_be_nil @db.sqls.must_equal expected_sqls( ["DROP TABLE cats"], :postgres => ["DROP TABLE IF EXISTS cats"] ) end it "should do nothing if the table does not exist" do @db.define_singleton_method(:table_exists?){|a| false} @db.drop_table?(:cats) @db.sqls.must_equal expected_sqls( [], :postgres => ["DROP TABLE IF EXISTS cats"] ) end it "should operate on multiple tables at once" do @db.define_singleton_method(:table_exists?){|a| a == :cats} @db.drop_table? :cats, :dogs @db.sqls.must_equal expected_sqls( ['DROP TABLE cats'], :postgres => ["DROP TABLE IF EXISTS cats", "DROP TABLE IF EXISTS dogs"] ) end it "should take an options hash and support the :cascade option" do @db.define_singleton_method(:table_exists?){|a| true} @db.drop_table? :cats, :dogs, :cascade=>true @db.sqls.must_equal expected_sqls( ['DROP TABLE cats CASCADE', 'DROP TABLE dogs CASCADE'], :postgres => ["DROP TABLE IF EXISTS cats CASCADE", "DROP TABLE IF EXISTS dogs CASCADE"] ) end it "should use IF NOT EXISTS if the database supports that" do @db.define_singleton_method(:supports_drop_table_if_exists?){true} @db.drop_table? :cats, :dogs @db.sqls.must_equal ['DROP TABLE IF EXISTS cats', 'DROP TABLE IF EXISTS dogs'] end it "should use IF NOT EXISTS with CASCADE if the database supports that" do @db.define_singleton_method(:supports_drop_table_if_exists?){true} @db.drop_table? :cats, :dogs, :cascade=>true @db.sqls.must_equal ['DROP TABLE IF EXISTS cats CASCADE', 'DROP TABLE IF EXISTS dogs CASCADE'] end end describe "#alter_table" do it "should allow adding not null constraint via set_column_allow_null with false argument" do @db.alter_table(:cats) do set_column_allow_null :score, false end.must_be_nil @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score SET NOT NULL"] end it "should allow removing not null constraint via set_column_allow_null with true argument" do @db.alter_table(:cats) do set_column_allow_null :score, true end @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score DROP NOT NULL"] end it "should allow adding not null constraint via set_column_not_null" do @db.alter_table(:cats) do set_column_not_null :score end @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score SET NOT NULL"] end it "should allow removing not null constraint via set_column_allow_null without argument" do @db.alter_table(:cats) do set_column_allow_null :score end @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score DROP NOT NULL"] end it "should support add_column" do @db.alter_table(:cats) do add_column :score, :integer end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN score integer"] end it "should support add_constraint" do @db.alter_table(:cats) do add_constraint :valid_score, 'score <= 100' end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT valid_score CHECK (score <= 100)"] end it "should support add_constraint with options" do @db.alter_table(:cats) do add_constraint({:name=>:valid_score, :deferrable=>true}, 'score <= 100') end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT valid_score CHECK (score <= 100) DEFERRABLE INITIALLY DEFERRED"] end it "should support add_constraint with block" do @db.alter_table(:cats) do add_constraint(:blah_blah){(x.sql_number > 0) & (y.sql_number < 1)} end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT blah_blah CHECK ((x > 0) AND (y < 1))"] end it "should support add_unique_constraint" do @db.alter_table(:cats) do add_unique_constraint [:a, :b] end @db.sqls.must_equal ["ALTER TABLE cats ADD UNIQUE (a, b)"] @db.alter_table(:cats) do add_unique_constraint [:a, :b], :name => :ab_uniq end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT ab_uniq UNIQUE (a, b)"] end it "should support add_foreign_key" do @db.alter_table(:cats) do add_foreign_key :node_id, :nodes end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN node_id integer REFERENCES nodes"] end it "should support add_foreign_key with :index option" do @db.alter_table(:cats) do add_foreign_key :node_id, :nodes, :index=>true end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN node_id integer REFERENCES nodes", "CREATE INDEX cats_node_id_index ON cats (node_id)"] end it "should support add_foreign_key with composite foreign keys" do @db.alter_table(:cats) do add_foreign_key [:node_id, :prop_id], :nodes_props end @db.sqls.must_equal ["ALTER TABLE cats ADD FOREIGN KEY (node_id, prop_id) REFERENCES nodes_props"] @db.alter_table(:cats) do add_foreign_key [:node_id, :prop_id], :nodes_props, :name => :cfk end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT cfk FOREIGN KEY (node_id, prop_id) REFERENCES nodes_props"] @db.alter_table(:cats) do add_foreign_key [:node_id, :prop_id], :nodes_props, :key => [:nid, :pid] end @db.sqls.must_equal ["ALTER TABLE cats ADD FOREIGN KEY (node_id, prop_id) REFERENCES nodes_props(nid, pid)"] @db.alter_table(:cats) do add_foreign_key [:node_id, :prop_id], :nodes_props, :on_delete => :restrict, :on_update => :cascade end @db.sqls.must_equal ["ALTER TABLE cats ADD FOREIGN KEY (node_id, prop_id) REFERENCES nodes_props ON DELETE RESTRICT ON UPDATE CASCADE"] end it "should support add_column with :index=>true option" do @db.alter_table(:cats) do add_column :name, Integer, :index=>true end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN name integer", "CREATE INDEX cats_name_index ON cats (name)"] end it "should support add_column with :index=>hash option" do @db.alter_table(:cats) do add_column :name, Integer, :index=>{:name=>:foo} end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN name integer", "CREATE INDEX foo ON cats (name)"] end it "should support add_index" do @db.alter_table(:cats) do add_index :name end @db.sqls.must_equal ["CREATE INDEX cats_name_index ON cats (name)"] end it "should ignore errors if the database raises an error on an add_index call and the :ignore_errors option is used" do @db.define_singleton_method(:execute_ddl){|*a| raise Sequel::DatabaseError} lambda{@db.add_index(:cats, :id)}.must_raise(Sequel::DatabaseError) @db.add_index(:cats, :id, :ignore_errors=>true) @db.sqls.must_equal [] end it "should support add_primary_key" do @db.alter_table(:cats) do add_primary_key :id end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ADD COLUMN id integer PRIMARY KEY AUTOINCREMENT"], :postgres => ['ALTER TABLE cats ADD COLUMN id integer GENERATED BY DEFAULT AS IDENTITY PRIMARY KEY'] ) end it "should support add_primary_key with composite primary keys" do @db.alter_table(:cats) do add_primary_key [:id, :type] end @db.sqls.must_equal ["ALTER TABLE cats ADD PRIMARY KEY (id, type)"] @db.alter_table(:cats) do add_primary_key [:id, :type], :name => :cpk end @db.sqls.must_equal ["ALTER TABLE cats ADD CONSTRAINT cpk PRIMARY KEY (id, type)"] end it "should set primary key column NOT NULL when using add_primary_key if database doesn't handle it" do def @db.can_add_primary_key_constraint_on_nullable_columns?; false end @db.alter_table(:cats) do add_primary_key :id end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ADD COLUMN id integer NOT NULL PRIMARY KEY AUTOINCREMENT"], :postgres => ['ALTER TABLE cats ADD COLUMN id integer GENERATED BY DEFAULT AS IDENTITY NOT NULL PRIMARY KEY'] ) end it "should set primary key column NOT NULL when adding primary key constraint if database doesn't handle it" do def @db.can_add_primary_key_constraint_on_nullable_columns?; false end @db.alter_table(:cats) do add_primary_key [:id, :type] end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ALTER COLUMN id SET NOT NULL", "ALTER TABLE cats ALTER COLUMN type SET NOT NULL", "ALTER TABLE cats ADD PRIMARY KEY (id, type)"], :postgres => ["ALTER TABLE cats ALTER COLUMN id SET NOT NULL, ALTER COLUMN type SET NOT NULL, ADD PRIMARY KEY (id, type)"] ) end it "should support drop_column" do @db.alter_table(:cats) do drop_column :score end @db.sqls.must_equal ["ALTER TABLE cats DROP COLUMN score"] end it "should support drop_column with :cascade=>true option" do @db.alter_table(:cats) do drop_column :score, :cascade=>true end @db.sqls.must_equal ["ALTER TABLE cats DROP COLUMN score CASCADE"] end it "should support drop_constraint" do @db.alter_table(:cats) do drop_constraint :valid_score end @db.sqls.must_equal ["ALTER TABLE cats DROP CONSTRAINT valid_score"] end it "should support drop_constraint with :cascade=>true option" do @db.alter_table(:cats) do drop_constraint :valid_score, :cascade=>true end @db.sqls.must_equal ["ALTER TABLE cats DROP CONSTRAINT valid_score CASCADE"] end it "should support drop_foreign_key" do def @db.foreign_key_list(table_name) [{:name=>:cats_node_id_fkey, :columns=>[:node_id]}] end @db.alter_table(:cats) do drop_foreign_key :node_id end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats DROP CONSTRAINT cats_node_id_fkey", "ALTER TABLE cats DROP COLUMN node_id"], :postgres => ['ALTER TABLE cats DROP CONSTRAINT cats_node_id_fkey, DROP COLUMN node_id'] ) end it "should support drop_foreign_key with :foreign_key_constraint_name option" do @db.alter_table(:cats) do drop_foreign_key :node_id, :foreign_key_constraint_name=>:foo end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats DROP CONSTRAINT foo", "ALTER TABLE cats DROP COLUMN node_id"], :postgres => ['ALTER TABLE cats DROP CONSTRAINT foo, DROP COLUMN node_id'] ) end it "should support drop_foreign_key with :name option" do @db.alter_table(:cats) do drop_foreign_key :node_id, :name=>:foo end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats DROP CONSTRAINT foo", "ALTER TABLE cats DROP COLUMN node_id"], :postgres => ['ALTER TABLE cats DROP CONSTRAINT foo, DROP COLUMN node_id'] ) end it "should support drop_foreign_key with composite foreign keys" do def @db.foreign_key_list(table_name) [{:name=>:cats_node_id_prop_id_fkey, :columns=>[:node_id, :prop_id]}] end @db.alter_table(:cats) do drop_foreign_key [:node_id, :prop_id] end @db.sqls.must_equal ["ALTER TABLE cats DROP CONSTRAINT cats_node_id_prop_id_fkey"] @db.alter_table(:cats) do drop_foreign_key [:node_id, :prop_id], :name => :cfk end @db.sqls.must_equal ["ALTER TABLE cats DROP CONSTRAINT cfk"] end it "should have drop_foreign_key raise Error if no name is found" do def @db.foreign_key_list(table_name) [{:name=>:cats_node_id_fkey, :columns=>[:foo_id]}] end lambda{@db.alter_table(:cats){drop_foreign_key :node_id}}.must_raise(Sequel::Error) end it "should have drop_foreign_key raise Error if multiple foreign keys found" do def @db.foreign_key_list(table_name) [{:name=>:cats_node_id_fkey, :columns=>[:node_id]}, {:name=>:cats_node_id_fkey2, :columns=>[:node_id]}] end lambda{@db.alter_table(:cats){drop_foreign_key :node_id}}.must_raise(Sequel::Error) end it "should support drop_index" do @db.alter_table(:cats) do drop_index :name end @db.sqls.must_equal ["DROP INDEX cats_name_index"] end it "should support drop_index with a given name" do @db.alter_table(:cats) do drop_index :name, :name=>:blah_blah end @db.sqls.must_equal ["DROP INDEX blah_blah"] end it "should support rename_column" do @db.alter_table(:cats) do rename_column :name, :old_name end @db.sqls.must_equal ["ALTER TABLE cats RENAME COLUMN name TO old_name"] end it "should support set_column_default" do @db.alter_table(:cats) do set_column_default :score, 3 end @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score SET DEFAULT 3"] end it "should support set_column_type" do @db.alter_table(:cats) do set_column_type :score, :real end @db.sqls.must_equal ["ALTER TABLE cats ALTER COLUMN score TYPE real"] end it "should support set_column_type with options" do @db.alter_table(:cats) do set_column_type :score, :integer, :unsigned=>true set_column_type :score, :varchar, :size=>30 set_column_type :score, :enum, :elements=>['a', 'b'] end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ALTER COLUMN score TYPE integer UNSIGNED", "ALTER TABLE cats ALTER COLUMN score TYPE varchar(30)", "ALTER TABLE cats ALTER COLUMN score TYPE enum('a', 'b')"], :postgres => [ "ALTER TABLE cats ALTER COLUMN score TYPE integer UNSIGNED, ALTER COLUMN score TYPE varchar(30), ALTER COLUMN score TYPE enum('a', 'b')" ] ) end it "should combine operations into a single query if the database supports it" do @db.define_singleton_method(:supports_combining_alter_table_ops?){true} @db.alter_table(:cats) do add_column :a, Integer drop_column :b set_column_not_null :c rename_column :d, :e set_column_default :f, 'g' set_column_type :h, Integer add_constraint(:i){a > 1} drop_constraint :j end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ADD COLUMN a integer, DROP COLUMN b, ALTER COLUMN c SET NOT NULL, RENAME COLUMN d TO e, ALTER COLUMN f SET DEFAULT 'g', ALTER COLUMN h TYPE integer, ADD CONSTRAINT i CHECK (a > 1), DROP CONSTRAINT j"], :postgres => [ "ALTER TABLE cats ADD COLUMN a integer, DROP COLUMN b, ALTER COLUMN c SET NOT NULL", "ALTER TABLE cats RENAME COLUMN d TO e", "ALTER TABLE cats ALTER COLUMN f SET DEFAULT 'g', ALTER COLUMN h TYPE integer, ADD CONSTRAINT i CHECK (a > 1), DROP CONSTRAINT j" ] ) end it "should combine operations into consecutive groups of combinable operations if the database supports combining operations" do @db.define_singleton_method(:supports_combining_alter_table_ops?){true} @db.alter_table(:cats) do add_column :a, Integer drop_column :b set_column_not_null :c rename_column :d, :e add_index :e set_column_default :f, 'g' set_column_type :h, Integer add_constraint(:i){a > 1} drop_constraint :j end @db.sqls.must_equal expected_sqls( ["ALTER TABLE cats ADD COLUMN a integer, DROP COLUMN b, ALTER COLUMN c SET NOT NULL, RENAME COLUMN d TO e", "CREATE INDEX cats_e_index ON cats (e)", "ALTER TABLE cats ALTER COLUMN f SET DEFAULT 'g', ALTER COLUMN h TYPE integer, ADD CONSTRAINT i CHECK (a > 1), DROP CONSTRAINT j"], :postgres => [ 'ALTER TABLE cats ADD COLUMN a integer, DROP COLUMN b, ALTER COLUMN c SET NOT NULL', 'ALTER TABLE cats RENAME COLUMN d TO e', 'CREATE INDEX cats_e_index ON cats (e)', "ALTER TABLE cats ALTER COLUMN f SET DEFAULT 'g', ALTER COLUMN h TYPE integer, ADD CONSTRAINT i CHECK (a > 1), DROP CONSTRAINT j" ] ) end it "should handle operations that don't emit SQL when combining" do @db.define_singleton_method(:supports_combining_alter_table_ops?){true} @db.define_singleton_method(:combinable_alter_table_op?){|op| super(op) && (op[:op] != :rename_column || op[:name] == :d2)} @db.define_singleton_method(:alter_table_op_sql){|t, op| super(t, op) unless op[:op] == :rename_column} @db.alter_table(:cats) do rename_column :d, :e add_column :a, Integer drop_column :b set_column_not_null :c rename_column :d2, :e2 add_index :e set_column_default :f, 'g' set_column_type :h, Integer add_constraint(:i){a > 1} drop_constraint :j end @db.sqls.must_equal ["ALTER TABLE cats ADD COLUMN a integer, DROP COLUMN b, ALTER COLUMN c SET NOT NULL", "CREATE INDEX cats_e_index ON cats (e)", "ALTER TABLE cats ALTER COLUMN f SET DEFAULT 'g', ALTER COLUMN h TYPE integer, ADD CONSTRAINT i CHECK (a > 1), DROP CONSTRAINT j"] end end describe "#create_table" do it "should construct proper SQL" do @db.create_table :test do primary_key :id, :integer, :null => false column :name, :text index :name, :unique => true end @db.sqls.must_equal expected_sqls( ['CREATE TABLE test (id integer NOT NULL PRIMARY KEY AUTOINCREMENT, name text)', 'CREATE UNIQUE INDEX test_name_index ON test (name)'], :postgres => [ 'CREATE TABLE test (id integer GENERATED BY DEFAULT AS IDENTITY NOT NULL PRIMARY KEY, name text)', 'CREATE UNIQUE INDEX test_name_index ON test (name)'] ) end it "should create a temporary table" do @db.create_table :test_tmp, :temp => true do primary_key :id, :integer, :null => false column :name, :text index :name, :unique => true end @db.sqls.must_equal expected_sqls( ['CREATE TEMPORARY TABLE test_tmp (id integer NOT NULL PRIMARY KEY AUTOINCREMENT, name text)', 'CREATE UNIQUE INDEX test_tmp_name_index ON test_tmp (name)'], :postgres => [ 'CREATE TEMPORARY TABLE test_tmp (id integer GENERATED BY DEFAULT AS IDENTITY NOT NULL PRIMARY KEY, name text)', 'CREATE UNIQUE INDEX test_tmp_name_index ON test_tmp (name)' ] ) end it "should create a schema-qualified temporary table" do @db.create_table Sequel[:sch][:test_tmp], :temp => true do primary_key :id, :integer, :null => false column :name, :text index :name, :unique => true end @db.sqls.must_equal expected_sqls( ['CREATE TEMPORARY TABLE sch.test_tmp (id integer NOT NULL PRIMARY KEY AUTOINCREMENT, name text)', 'CREATE UNIQUE INDEX sch_test_tmp_name_index ON sch.test_tmp (name)'], :postgres => [ 'CREATE TEMPORARY TABLE sch.test_tmp (id integer GENERATED BY DEFAULT AS IDENTITY NOT NULL PRIMARY KEY, name text)', 'CREATE UNIQUE INDEX sch_test_tmp_name_index ON sch.test_tmp (name)' ] ) end end describe "#alter_table" do it "should construct proper SQL" do @db.alter_table :xyz do add_column :aaa, :text, :null => false, :unique => true drop_column :bbb rename_column :ccc, :ddd set_column_type :eee, :integer set_column_default :hhh, 'abcd' add_index :fff, :unique => true drop_index :ggg end @db.sqls.must_equal expected_sqls( ['ALTER TABLE xyz ADD COLUMN aaa text NOT NULL UNIQUE', 'ALTER TABLE xyz DROP COLUMN bbb', 'ALTER TABLE xyz RENAME COLUMN ccc TO ddd', 'ALTER TABLE xyz ALTER COLUMN eee TYPE integer', "ALTER TABLE xyz ALTER COLUMN hhh SET DEFAULT 'abcd'", 'CREATE UNIQUE INDEX xyz_fff_index ON xyz (fff)', 'DROP INDEX xyz_ggg_index'], :postgres => [ 'ALTER TABLE xyz ADD COLUMN aaa text NOT NULL UNIQUE, DROP COLUMN bbb', 'ALTER TABLE xyz RENAME COLUMN ccc TO ddd', "ALTER TABLE xyz ALTER COLUMN eee TYPE integer, ALTER COLUMN hhh SET DEFAULT 'abcd'", 'CREATE UNIQUE INDEX xyz_fff_index ON xyz (fff)', 'DROP INDEX xyz_ggg_index' ] ) end end describe "#add_column" do it "should construct proper SQL" do db = Sequel.mock db.add_column(:test, :name, :text, :unique => true).must_be_nil db.sqls.must_equal ['ALTER TABLE test ADD COLUMN name text UNIQUE'] end end describe "#drop_column" do it "should construct proper SQL" do @db.drop_column(:test, :name).must_be_nil @db.sqls.must_equal ['ALTER TABLE test DROP COLUMN name'] end it "should use CASCADE for :cascade=>true option" do @db.drop_column :test, :name, :cascade=>true @db.sqls.must_equal ['ALTER TABLE test DROP COLUMN name CASCADE'] end end describe "#rename_column" do it "should construct proper SQL" do @db.rename_column(:test, :abc, :def).must_be_nil @db.sqls.must_equal ['ALTER TABLE test RENAME COLUMN abc TO def'] end end describe "#set_column_type" do it "should construct proper SQL" do @db.set_column_type(:test, :name, :integer).must_be_nil @db.sqls.must_equal ['ALTER TABLE test ALTER COLUMN name TYPE integer'] end end describe "#set_column_default" do it "should construct proper SQL" do @db.set_column_default(:test, :name, 'zyx').must_be_nil @db.sqls.must_equal ["ALTER TABLE test ALTER COLUMN name SET DEFAULT 'zyx'"] end end describe "#add_index" do it "should construct proper SQL" do @db.add_index(:test, :name, :unique => true).must_be_nil @db.sqls.must_equal ['CREATE UNIQUE INDEX test_name_index ON test (name)'] end it "should accept multiple columns" do @db.add_index :test, [:one, :two] @db.sqls.must_equal ['CREATE INDEX test_one_two_index ON test (one, two)'] end end describe "#drop_index" do it "should construct proper SQL" do @db.drop_index(:test, :name).must_be_nil @db.sqls.must_equal ['DROP INDEX test_name_index'] end end describe "#drop_table" do it "should construct proper SQL" do @db.drop_table(:test).must_be_nil @db.sqls.must_equal ['DROP TABLE test'] end it "should accept multiple table names" do @db.drop_table :a, :bb, :ccc @db.sqls.must_equal ['DROP TABLE a', 'DROP TABLE bb', 'DROP TABLE ccc'] end end describe "#rename_table" do it "should construct proper SQL" do @db.rename_table(:abc, :xyz).must_be_nil @db.sqls.must_equal ['ALTER TABLE abc RENAME TO xyz'] end end describe "#create_view" do it "should construct proper SQL with raw SQL" do @db.create_view(:test, "SELECT * FROM xyz").must_be_nil @db.sqls.must_equal ['CREATE VIEW test AS SELECT * FROM xyz'] @db.create_view Sequel.identifier(:test), "SELECT * FROM xyz" @db.sqls.must_equal ['CREATE VIEW test AS SELECT * FROM xyz'] end it "should construct proper SQL with dataset" do @db.create_view :test, @db[:items].select(:a, :b).order(:c) @db.sqls.must_equal ['CREATE VIEW test AS SELECT a, b FROM items ORDER BY c'] end it "should handle :columns option" do @db.create_view :test, @db[:items].select(:a, :b).order(:c), :columns=>[:d, :e] @db.sqls.must_equal ['CREATE VIEW test (d, e) AS SELECT a, b FROM items ORDER BY c'] @db.create_view :test, @db[:items].select(:a, :b).order(:c), :columns=>%w'd e' @db.sqls.must_equal ['CREATE VIEW test (d, e) AS SELECT a, b FROM items ORDER BY c'] @db.create_view :test, @db[:items].select(:a, :b).order(:c), :columns=>[Sequel.identifier('d'), Sequel.lit('e')] @db.sqls.must_equal ['CREATE VIEW test (d, e) AS SELECT a, b FROM items ORDER BY c'] end it "should handle :check option" do @db.create_view :test, @db[:items].select(:a, :b).order(:c), :check=>true @db.sqls.must_equal ['CREATE VIEW test AS SELECT a, b FROM items ORDER BY c WITH CHECK OPTION'] @db.create_view :test, @db[:items].select(:a, :b).order(:c), :check=>:local @db.sqls.must_equal ['CREATE VIEW test AS SELECT a, b FROM items ORDER BY c WITH LOCAL CHECK OPTION'] end with_symbol_splitting "should handle create_or_replace_view with splittable symbols" do @db.create_or_replace_view :sch__test, "SELECT * FROM xyz" @db.sqls.must_equal expected_sqls( ['DROP VIEW sch.test', 'CREATE VIEW sch.test AS SELECT * FROM xyz'], :postgres => ['CREATE OR REPLACE VIEW sch.test AS SELECT * FROM xyz'] ) end it "should handle create_or_replace_view" do @db.create_or_replace_view :test, @db[:items].select(:a, :b).order(:c) @db.sqls.must_equal expected_sqls( ['DROP VIEW test', 'CREATE VIEW test AS SELECT a, b FROM items ORDER BY c'], :postgres => ['CREATE OR REPLACE VIEW test AS SELECT a, b FROM items ORDER BY c'] ) @db.create_or_replace_view Sequel.identifier(:test), @db[:items].select(:a, :b).order(:c) @db.sqls.must_equal expected_sqls( ['DROP VIEW test', 'CREATE VIEW test AS SELECT a, b FROM items ORDER BY c'], :postgres => ['CREATE OR REPLACE VIEW test AS SELECT a, b FROM items ORDER BY c'] ) end it "should handle create_or_replace_view when DROP VIEW raises a database error" do def @db.drop_view(*) super; raise Sequel::DatabaseError end @db.create_or_replace_view :test, @db[:items].select(:a, :b).order(:c) @db.sqls.must_equal expected_sqls( ['DROP VIEW test', 'CREATE VIEW test AS SELECT a, b FROM items ORDER BY c'], :postgres => ['CREATE OR REPLACE VIEW test AS SELECT a, b FROM items ORDER BY c'] ) end # No need to test on postgres, since it doesn't call drop_view unless database_type == :postgres it "should raise in create_or_replace_view when DROP VIEW raises a disconnect error" do def @db.drop_view(*) super; raise Sequel::DatabaseDisconnectError end proc{@db.create_or_replace_view :test, @db[:items].select(:a, :b).order(:c)}.must_raise Sequel::DatabaseDisconnectError @db.sqls.must_equal ['DROP VIEW test'] end it "should raise in create_or_replace_view when DROP VIEW raises a connect error" do def @db.drop_view(*) super; raise Sequel::DatabaseConnectionError end proc{@db.create_or_replace_view :test, @db[:items].select(:a, :b).order(:c)}.must_raise Sequel::DatabaseConnectionError @db.sqls.must_equal ['DROP VIEW test'] end end it "should use CREATE OR REPLACE VIEW if such syntax is supported" do def @db.supports_create_or_replace_view?() true end @db.create_or_replace_view :test, @db[:items] @db.sqls.must_equal ['CREATE OR REPLACE VIEW test AS SELECT * FROM items'] end end describe "#drop_view" do with_symbol_splitting "should construct proper SQL for splittable symbols" do @db.drop_view(:sch__test).must_be_nil @db.sqls.must_equal ['DROP VIEW sch.test'] end it "should construct proper SQL" do @db.drop_view :test @db.drop_view Sequel.identifier(:test) @db.drop_view Sequel.qualify(:sch, :test) @db.sqls.must_equal ['DROP VIEW test', 'DROP VIEW test', 'DROP VIEW sch.test'] end it "should drop multiple views at once" do @db.drop_view :cats, :dogs @db.sqls.must_equal ['DROP VIEW cats', 'DROP VIEW dogs'] end it "should support the :cascade option" do @db.drop_view :cats, :dogs, :cascade=>true @db.sqls.must_equal ['DROP VIEW cats CASCADE', 'DROP VIEW dogs CASCADE'] end it "should support the :if_exists option" do @db.drop_view :cats, :dogs, :if_exists=>true @db.sqls.must_equal ['DROP VIEW IF EXISTS cats', 'DROP VIEW IF EXISTS dogs'] end end describe "#alter_table_sql" do it "should raise error for an invalid op" do proc {Sequel.mock.send(:alter_table_sql, :mau, :op => :blah)}.must_raise(Sequel::Error) end end end end describe "Schema Parser" do before do @sqls = [] @db = Sequel::Database.new end it "should raise an error if there are no columns" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [] end proc{@db.schema(:x)}.must_raise(Sequel::Error) end it "should cache data by default" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {}]] end @db.schema(:x).must_be_same_as(@db.schema(:x)) end it "should not cache data if :reload=>true is given" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {}]] end @db.schema(:x).wont_be_same_as(@db.schema(:x, :reload=>true)) end it "should not cache schema metadata if cache_schema is false" do @db.cache_schema = false @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {}]] end @db.schema(:x).wont_be_same_as(@db.schema(:x)) end it "should freeze string values in resulting hash" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {:oid=>1, :db_type=>'integer'.dup, :default=>"'a'".dup, :ruby_default=>'a'.dup}]] end c = @db.schema(:x)[0][1] c[:db_type].frozen?.must_equal true c[:default].frozen?.must_equal true c[:ruby_default].frozen?.must_equal true end it "should provide options if given a table name" do c = nil @db.define_singleton_method(:schema_parse_table) do |t, opts| c = [t, opts] [[:a, {:db_type=>t.to_s}]] end @db.schema(:x) c.must_equal ["x", {}] @db.schema(Sequel[:s][:x]) c.must_equal ["x", {:schema=>"s"}] ds = @db[Sequel[:s][:y]] @db.schema(ds) c.must_equal ["y", {:schema=>"s", :dataset=>ds}] end it "should raise error if asked to schema parse a dataset not involving a single table" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {:db_type=>t.to_s}]] end proc{@db.schema(@db.from)}.must_raise Sequel::Error proc{@db.schema(@db.from(:x, :y))}.must_raise Sequel::Error proc{@db.schema(@db.from(:x).cross_join(:y))}.must_raise Sequel::Error end with_symbol_splitting "should provide options if given a table name with splittable symbols" do c = nil @db.define_singleton_method(:schema_parse_table) do |t, opts| c = [t, opts] [[:a, {:db_type=>t.to_s}]] end @db.schema(:s__x) c.must_equal ["x", {:schema=>"s"}] ds = @db[:s__y] @db.schema(ds) c.must_equal ["y", {:schema=>"s", :dataset=>ds}] end it "should parse the schema correctly for a single table" do sqls = @sqls proc{@db.schema(:x)}.must_raise(Sequel::Error) @db.define_singleton_method(:schema_parse_table) do |t, opts| sqls << t [[:a, {:db_type=>t.to_s}]] end @db.schema(:x).must_equal [[:a, {:db_type=>"x", :ruby_default=>nil}]] @sqls.must_equal ['x'] @db.schema(:x).must_equal [[:a, {:db_type=>"x", :ruby_default=>nil}]] @sqls.must_equal ['x'] @db.schema(:x, :reload=>true).must_equal [[:a, {:db_type=>"x", :ruby_default=>nil}]] @sqls.must_equal ['x', 'x'] end it "should dedup :db_type strings" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[:a, {:db_type=>t.to_s.dup}], [:b, {:db_type=>t.to_s.dup}]] end sch = @db.schema(:x) sch.must_equal [[:a, {:db_type=>"x", :ruby_default=>nil}], [:b, {:db_type=>"x", :ruby_default=>nil}]] sch[0][1][:db_type].must_be_same_as(sch[1][1][:db_type]) end if RUBY_VERSION >= '2.5' it "should set :auto_increment to true by default if unset and a single integer primary key is used" do @db.define_singleton_method(:schema_parse_table){|*| [[:a, {:primary_key=>true, :db_type=>'integer'}]]} @db.schema(:x).first.last[:auto_increment].must_equal true end it "should not set :auto_increment if already set" do @db.define_singleton_method(:schema_parse_table){|*| [[:a, {:primary_key=>true, :db_type=>'integer', :auto_increment=>false}]]} @db.schema(:x).first.last[:auto_increment].must_equal false end it "should set :auto_increment to false by default if unset and a single nonintegery primary key is used" do @db.define_singleton_method(:schema_parse_table){|*| [[:a, {:primary_key=>true, :db_type=>'varchar'}]]} @db.schema(:x).first.last[:auto_increment].must_equal false end it "should set :auto_increment to false by default if unset and a composite primary key" do @db.define_singleton_method(:schema_parse_table){|*| [[:a, {:primary_key=>true, :db_type=>'integer'}], [:b, {:primary_key=>true, :db_type=>'integer'}]]} @db.schema(:x).first.last[:auto_increment].must_equal false @db.schema(:x).last.last[:auto_increment].must_equal false end it "should set :auto_increment to true by default if set and not the first column" do @db.define_singleton_method(:schema_parse_table){|*| [[:b, {}], [:a, {:primary_key=>true, :db_type=>'integer'}]]} @db.schema(:x).last.last[:auto_increment].must_equal true end it "should convert various types of table name arguments" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[t, opts]] end s1 = @db.schema(:x) s1.must_equal [['x', {:ruby_default=>nil}]] @db.schema(:x).object_id.must_equal s1.object_id @db.schema(Sequel.identifier(:x)).object_id.must_equal s1.object_id s2 = @db.schema(Sequel[:x][:y]) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil}]] @db.schema(Sequel[:x][:y]).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(:x, :y)).object_id.must_equal s2.object_id s2 = @db.schema(Sequel.qualify(:v, Sequel[:x][:y])) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil, :information_schema_schema=>Sequel.identifier('v')}]] @db.schema(Sequel.qualify(:v, Sequel[:x][:y])).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(Sequel[:v][:x], :y)).object_id.must_equal s2.object_id s2 = @db.schema(Sequel.qualify(Sequel[:u][:v], Sequel[:x][:y])) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil, :information_schema_schema=>Sequel.qualify('u', 'v')}]] @db.schema(Sequel.qualify(Sequel[:u][:v], Sequel[:x][:y])).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(Sequel.qualify(:u, :v), Sequel.qualify(:x, :y))).object_id.must_equal s2.object_id end with_symbol_splitting "should convert splittable symbol arguments" do @db.define_singleton_method(:schema_parse_table) do |t, opts| [[t, opts]] end s1 = @db.schema(:x) s1.must_equal [['x', {:ruby_default=>nil}]] @db.schema(:x).object_id.must_equal s1.object_id @db.schema(Sequel.identifier(:x)).object_id.must_equal s1.object_id s2 = @db.schema(:x__y) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil}]] @db.schema(:x__y).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(:x, :y)).object_id.must_equal s2.object_id s2 = @db.schema(Sequel.qualify(:v, :x__y)) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil, :information_schema_schema=>Sequel.identifier('v')}]] @db.schema(Sequel.qualify(:v, :x__y)).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(:v__x, :y)).object_id.must_equal s2.object_id s2 = @db.schema(Sequel.qualify(:u__v, :x__y)) s2.must_equal [['y', {:schema=>'x', :ruby_default=>nil, :information_schema_schema=>Sequel.qualify('u', 'v')}]] @db.schema(Sequel.qualify(:u__v, :x__y)).object_id.must_equal s2.object_id @db.schema(Sequel.qualify(Sequel.qualify(:u, :v), Sequel.qualify(:x, :y))).object_id.must_equal s2.object_id end it "should correctly parse all supported data types" do sm = Module.new do def schema_parse_table(t, opts) [[:x, {:db_type=>t.to_s, :type=>schema_column_type(t.to_s)}]] end end @db.extend(sm) @db.schema(:tinyint).first.last[:type].must_equal :integer @db.schema(:int).first.last[:type].must_equal :integer @db.schema(:integer).first.last[:type].must_equal :integer @db.schema(:bigint).first.last[:type].must_equal :integer @db.schema(:smallint).first.last[:type].must_equal :integer @db.schema(:character).first.last[:type].must_equal :string @db.schema(:"character varying").first.last[:type].must_equal :string @db.schema(:varchar).first.last[:type].must_equal :string @db.schema(:"varchar(255)").first.last[:type].must_equal :string @db.schema(:"varchar(255)").first.last[:max_length].must_equal 255 @db.schema(:text).first.last[:type].must_equal :string @db.schema(:date).first.last[:type].must_equal :date @db.schema(:datetime).first.last[:type].must_equal :datetime @db.schema(:"datetime(6)").first.last[:type].must_equal :datetime @db.schema(:smalldatetime).first.last[:type].must_equal :datetime @db.schema(:timestamp).first.last[:type].must_equal :datetime @db.schema(:"timestamp with time zone").first.last[:type].must_equal :datetime @db.schema(:"timestamp without time zone").first.last[:type].must_equal :datetime @db.schema(:"timestamp(6)").first.last[:type].must_equal :datetime @db.schema(:"timestamp(6) with time zone").first.last[:type].must_equal :datetime @db.schema(:time).first.last[:type].must_equal :time @db.schema(:"time with time zone").first.last[:type].must_equal :time @db.schema(:"time without time zone").first.last[:type].must_equal :time @db.schema(:bool).first.last[:type].must_equal :boolean @db.schema(:boolean).first.last[:type].must_equal :boolean @db.schema(:real).first.last[:type].must_equal :float @db.schema(:float).first.last[:type].must_equal :float @db.schema(:"float unsigned").first.last[:type].must_equal :float @db.schema(:double).first.last[:type].must_equal :float @db.schema(:"double(1,2)").first.last[:type].must_equal :float @db.schema(:"double(1,2) unsigned").first.last[:type].must_equal :float @db.schema(:"double precision").first.last[:type].must_equal :float @db.schema(:number).first.last[:type].must_equal :decimal @db.schema(:numeric).first.last[:type].must_equal :decimal @db.schema(:decimal).first.last[:type].must_equal :decimal @db.schema(:"number(10,0)").first.last[:type].must_equal :integer @db.schema(:"numeric(10, 10)").first.last[:type].must_equal :decimal @db.schema(:"decimal(10,1)").first.last[:type].must_equal :decimal @db.schema(:bytea).first.last[:type].must_equal :blob @db.schema(:blob).first.last[:type].must_equal :blob @db.schema(:image).first.last[:type].must_equal :blob @db.schema(:nchar).first.last[:type].must_equal :string @db.schema(:nvarchar).first.last[:type].must_equal :string @db.schema(:ntext).first.last[:type].must_equal :string @db.schema(:clob).first.last[:type].must_equal :string @db.schema(:ntext).first.last[:type].must_equal :string @db.schema(:smalldatetime).first.last[:type].must_equal :datetime @db.schema(:binary).first.last[:type].must_equal :blob @db.schema(:varbinary).first.last[:type].must_equal :blob @db.schema(:enum).first.last[:type].must_equal :enum @db = Sequel.mock(:host=>'postgres') @db.extend(sm) @db.schema(:interval).first.last[:type].must_equal :interval @db.schema(:citext).first.last[:type].must_equal :string @db = Sequel.mock(:host=>'mysql') @db.extend(sm) @db.schema(:set).first.last[:type].must_equal :set @db.schema(:mediumint).first.last[:type].must_equal :integer @db.schema(:mediumtext).first.last[:type].must_equal :string end end