# frozen-string-literal: true Sequel.require 'adapters/utils/split_alter_table' Sequel.require 'adapters/utils/replace' module Sequel module MySQL Sequel::Database.set_shared_adapter_scheme(:mysql, self) def self.mock_adapter_setup(db) db.instance_eval do @server_version = 50617 end end @convert_tinyint_to_bool = true class << self # Sequel converts the column type tinyint(1) to a boolean by default when # using the native MySQL or Mysql2 adapter. You can turn off the conversion by setting # this to false. This setting is ignored when connecting to MySQL via the do or jdbc # adapters, both of which automatically do the conversion. attr_accessor :convert_tinyint_to_bool # Set the default charset used for CREATE TABLE. You can pass the # :charset option to create_table to override this setting. attr_accessor :default_charset # Set the default collation used for CREATE TABLE. You can pass the # :collate option to create_table to override this setting. attr_accessor :default_collate # Set the default engine used for CREATE TABLE. You can pass the # :engine option to create_table to override this setting. attr_accessor :default_engine end # Methods shared by Database instances that connect to MySQL, # currently supported by the native and JDBC adapters. module DatabaseMethods extend Sequel::Database::ResetIdentifierMangling AUTO_INCREMENT = 'AUTO_INCREMENT'.freeze CAST_TYPES = {String=>:CHAR, Integer=>:SIGNED, Time=>:DATETIME, DateTime=>:DATETIME, Numeric=>:DECIMAL, BigDecimal=>:DECIMAL, File=>:BINARY} COLUMN_DEFINITION_ORDER = [:collate, :null, :default, :unique, :primary_key, :auto_increment, :references] PRIMARY = 'PRIMARY'.freeze MYSQL_TIMESTAMP_RE = /\ACURRENT_(?:DATE|TIMESTAMP)?\z/ include Sequel::Database::SplitAlterTable # MySQL's cast rules are restrictive in that you can't just cast to any possible # database type. def cast_type_literal(type) CAST_TYPES[type] || super end # Commit an existing prepared transaction with the given transaction # identifier string. def commit_prepared_transaction(transaction_id, opts=OPTS) run("XA COMMIT #{literal(transaction_id)}", opts) end # MySQL uses the :mysql database type def database_type :mysql end # Use the Information Schema's KEY_COLUMN_USAGE table to get # basic information on foreign key columns, but include the # constraint name. def foreign_key_list(table, opts=OPTS) m = output_identifier_meth im = input_identifier_meth ds = metadata_dataset. from(Sequel[:INFORMATION_SCHEMA][:KEY_COLUMN_USAGE]). where(:TABLE_NAME=>im.call(table), :TABLE_SCHEMA=>Sequel.function(:DATABASE)). exclude(:CONSTRAINT_NAME=>'PRIMARY'). exclude(:REFERENCED_TABLE_NAME=>nil). select(Sequel[:CONSTRAINT_NAME].as(:name), Sequel[:COLUMN_NAME].as(:column), Sequel[:REFERENCED_TABLE_NAME].as(:table), Sequel[:REFERENCED_COLUMN_NAME].as(:key)) h = {} ds.each do |row| if r = h[row[:name]] r[:columns] << m.call(row[:column]) r[:key] << m.call(row[:key]) else h[row[:name]] = {:name=>m.call(row[:name]), :columns=>[m.call(row[:column])], :table=>m.call(row[:table]), :key=>[m.call(row[:key])]} end end h.values end # MySQL namespaces indexes per table. def global_index_namespace? false end # Use SHOW INDEX FROM to get the index information for the # table. # # By default partial indexes are not included, you can use the # option :partial to override this. def indexes(table, opts=OPTS) indexes = {} remove_indexes = [] m = output_identifier_meth im = input_identifier_meth metadata_dataset.with_sql("SHOW INDEX FROM ?", SQL::Identifier.new(im.call(table))).each do |r| name = r[:Key_name] next if name == PRIMARY name = m.call(name) remove_indexes << name if r[:Sub_part] && ! opts[:partial] i = indexes[name] ||= {:columns=>[], :unique=>r[:Non_unique] != 1} i[:columns] << m.call(r[:Column_name]) end indexes.reject{|k,v| remove_indexes.include?(k)} end # Rollback an existing prepared transaction with the given transaction # identifier string. def rollback_prepared_transaction(transaction_id, opts=OPTS) run("XA ROLLBACK #{literal(transaction_id)}", opts) end # Get version of MySQL server, used for determined capabilities. def server_version @server_version ||= begin m = /(\d+)\.(\d+)\.(\d+)/.match(get(SQL::Function.new(:version))) (m[1].to_i * 10000) + (m[2].to_i * 100) + m[3].to_i end end # MySQL supports CREATE TABLE IF NOT EXISTS syntax. def supports_create_table_if_not_exists? true end # MySQL 5+ supports prepared transactions (two-phase commit) using XA def supports_prepared_transactions? server_version >= 50000 end # MySQL 5+ supports savepoints def supports_savepoints? server_version >= 50000 end # MySQL doesn't support savepoints inside prepared transactions in from # 5.5.12 to 5.5.23, see http://bugs.mysql.com/bug.php?id=64374 def supports_savepoints_in_prepared_transactions? super && (server_version <= 50512 || server_version >= 50523) end # Support fractional timestamps on MySQL 5.6.5+ if the :fractional_seconds # Database option is used. Technically, MySQL 5.6.4+ supports them, but # automatic initialization of datetime values wasn't supported to 5.6.5+, # and this is related to that. def supports_timestamp_usecs? @supports_timestamp_usecs ||= server_version >= 50605 && typecast_value_boolean(opts[:fractional_seconds]) end # MySQL supports transaction isolation levels def supports_transaction_isolation_levels? true end # Return an array of symbols specifying table names in the current database. # # Options: # :server :: Set the server to use def tables(opts=OPTS) full_tables('BASE TABLE', opts) end # Changes the database in use by issuing a USE statement. I would be # very careful if I used this. def use(db_name) disconnect @opts[:database] = db_name if self << "USE #{db_name}" @schemas = {} self end # Return an array of symbols specifying view names in the current database. # # Options: # :server :: Set the server to use def views(opts=OPTS) full_tables('VIEW', opts) end private def alter_table_add_column_sql(table, op) pos = if after_col = op[:after] " AFTER #{quote_identifier(after_col)}" elsif op[:first] " FIRST" end sql = if related = op.delete(:table) sql = super + "#{pos}, ADD " op[:table] = related op[:key] ||= primary_key_from_schema(related) if constraint_name = op.delete(:foreign_key_constraint_name) sql << "CONSTRAINT #{quote_identifier(constraint_name)} " end sql << "FOREIGN KEY (#{quote_identifier(op[:name])})#{column_references_sql(op)}" else "#{super}#{pos}" end end def alter_table_change_column_sql(table, op) o = op[:op] opts = schema(table).find{|x| x.first == op[:name]} opts = opts ? opts.last.dup : {} opts[:name] = o == :rename_column ? op[:new_name] : op[:name] opts[:type] = o == :set_column_type ? op[:type] : opts[:db_type] opts[:null] = o == :set_column_null ? op[:null] : opts[:allow_null] opts[:default] = o == :set_column_default ? op[:default] : opts[:ruby_default] opts.delete(:default) if opts[:default] == nil opts.delete(:primary_key) unless op[:type] || opts[:type] raise Error, "cannot determine database type to use for CHANGE COLUMN operation" end opts = op.merge(opts) if op.has_key?(:auto_increment) opts[:auto_increment] = op[:auto_increment] end "CHANGE COLUMN #{quote_identifier(op[:name])} #{column_definition_sql(opts)}" end alias alter_table_rename_column_sql alter_table_change_column_sql alias alter_table_set_column_type_sql alter_table_change_column_sql alias alter_table_set_column_null_sql alter_table_change_column_sql alias alter_table_set_column_default_sql alter_table_change_column_sql def alter_table_add_constraint_sql(table, op) if op[:type] == :foreign_key op[:key] ||= primary_key_from_schema(op[:table]) end super end def alter_table_drop_constraint_sql(table, op) case op[:type] when :primary_key "DROP PRIMARY KEY" when :foreign_key name = op[:name] || foreign_key_name(table, op[:columns]) "DROP FOREIGN KEY #{quote_identifier(name)}" when :unique "DROP INDEX #{quote_identifier(op[:name])}" end end # MySQL server requires table names when dropping indexes. def alter_table_sql(table, op) case op[:op] when :drop_index "#{drop_index_sql(table, op)} ON #{quote_schema_table(table)}" when :drop_constraint if op[:type] == :primary_key if (pk = primary_key_from_schema(table)).length == 1 return [alter_table_sql(table, {:op=>:rename_column, :name=>pk.first, :new_name=>pk.first, :auto_increment=>false}), super] end end super else super end end # Handle MySQL specific default format. def column_schema_normalize_default(default, type) if column_schema_default_string_type?(type) return if [:date, :datetime, :time].include?(type) && MYSQL_TIMESTAMP_RE.match(default) default = "'#{default.gsub("'", "''").gsub('\\', '\\\\')}'" end super(default, type) end # Don't allow combining adding foreign key operations with other # operations, since in some cases adding a foreign key constraint in # the same query as other operations results in MySQL error 150. def combinable_alter_table_op?(op) super && !(op[:op] == :add_constraint && op[:type] == :foreign_key) && !(op[:op] == :drop_constraint && op[:type] == :primary_key) end # The SQL queries to execute on initial connection def mysql_connection_setting_sqls sqls = [] if wait_timeout = opts.fetch(:timeout, 2147483) # Increase timeout so mysql server doesn't disconnect us # Value used by default is maximum allowed value on Windows. sqls << "SET @@wait_timeout = #{wait_timeout}" end # By default, MySQL 'where id is null' selects the last inserted id sqls << "SET SQL_AUTO_IS_NULL=0" unless opts[:auto_is_null] # If the user has specified one or more sql modes, enable them if sql_mode = opts[:sql_mode] sql_mode = Array(sql_mode).join(',').upcase sqls << "SET sql_mode = '#{sql_mode}'" end sqls end # Use MySQL specific AUTO_INCREMENT text. def auto_increment_sql AUTO_INCREMENT end # MySQL needs to set transaction isolation before begining a transaction def begin_new_transaction(conn, opts) set_transaction_isolation(conn, opts) log_connection_execute(conn, begin_transaction_sql) end # Use XA START to start a new prepared transaction if the :prepare # option is given. def begin_transaction(conn, opts=OPTS) if (s = opts[:prepare]) && savepoint_level(conn) == 1 log_connection_execute(conn, "XA START #{literal(s)}") else super end end # The order of the column definition, as an array of symbols. def column_definition_order COLUMN_DEFINITION_ORDER end # MySQL doesn't allow default values on text columns, so ignore if it the # generic text type is used def column_definition_sql(column) column.delete(:default) if column[:type] == File || (column[:type] == String && column[:text] == true) super end # Prepare the XA transaction for a two-phase commit if the # :prepare option is given. def commit_transaction(conn, opts=OPTS) if (s = opts[:prepare]) && savepoint_level(conn) <= 1 log_connection_execute(conn, "XA END #{literal(s)}") log_connection_execute(conn, "XA PREPARE #{literal(s)}") else super end end # Use MySQL specific syntax for engine type and character encoding def create_table_sql(name, generator, options = OPTS) engine = options.fetch(:engine, Sequel::MySQL.default_engine) charset = options.fetch(:charset, Sequel::MySQL.default_charset) collate = options.fetch(:collate, Sequel::MySQL.default_collate) generator.constraints.sort_by{|c| (c[:type] == :primary_key) ? -1 : 1} # Proc for figuring out the primary key for a given table. key_proc = lambda do |t| if t == name if pk = generator.primary_key_name [pk] elsif !(pkc = generator.constraints.select{|con| con[:type] == :primary_key}).empty? pkc.first[:columns] elsif !(pkc = generator.columns.select{|con| con[:primary_key] == true}).empty? pkc.map{|c| c[:name]} end else primary_key_from_schema(t) end end # Manually set the keys, since MySQL requires one, it doesn't use the primary # key if none are specified. generator.constraints.each do |c| if c[:type] == :foreign_key c[:key] ||= key_proc.call(c[:table]) end end # Split column constraints into table constraints in some cases: # foreign key - Always # unique, primary_key - Only if constraint has a name generator.columns.each do |c| if t = c.delete(:table) same_table = t == name key = c[:key] || key_proc.call(t) if same_table && !key.nil? generator.constraints.unshift(:type=>:unique, :columns=>Array(key)) end generator.foreign_key([c[:name]], t, c.merge(:name=>c[:foreign_key_constraint_name], :type=>:foreign_key, :key=>key)) end end "#{super}#{" ENGINE=#{engine}" if engine}#{" DEFAULT CHARSET=#{charset}" if charset}#{" DEFAULT COLLATE=#{collate}" if collate}" end DATABASE_ERROR_REGEXPS = { /Duplicate entry .+ for key/ => UniqueConstraintViolation, /foreign key constraint fails/ => ForeignKeyConstraintViolation, /cannot be null/ => NotNullConstraintViolation, /Deadlock found when trying to get lock; try restarting transaction/ => SerializationFailure, }.freeze def database_error_regexps DATABASE_ERROR_REGEXPS end # Backbone of the tables and views support using SHOW FULL TABLES. def full_tables(type, opts) m = output_identifier_meth metadata_dataset.with_sql('SHOW FULL TABLES').server(opts[:server]).map{|r| m.call(r.values.first) if r.delete(:Table_type) == type}.compact end # MySQL folds unquoted identifiers to lowercase, so it shouldn't need to upcase identifiers on input. def identifier_input_method_default nil end # MySQL folds unquoted identifiers to lowercase, so it shouldn't need to upcase identifiers on output. def identifier_output_method_default nil end # Handle MySQL specific index SQL syntax def index_definition_sql(table_name, index) index_name = quote_identifier(index[:name] || default_index_name(table_name, index[:columns])) raise Error, "Partial indexes are not supported for this database" if index[:where] && !supports_partial_indexes? index_type = case index[:type] when :full_text "FULLTEXT " when :spatial "SPATIAL " else using = " USING #{index[:type]}" unless index[:type] == nil "UNIQUE " if index[:unique] end "CREATE #{index_type}INDEX #{index_name}#{using} ON #{quote_schema_table(table_name)} #{literal(index[:columns])}" end # Parse the schema for the given table to get an array of primary key columns def primary_key_from_schema(table) schema(table).select{|a| a[1][:primary_key]}.map{|a| a[0]} end # Rollback the currently open XA transaction def rollback_transaction(conn, opts=OPTS) if (s = opts[:prepare]) && savepoint_level(conn) <= 1 log_connection_execute(conn, "XA END #{literal(s)}") log_connection_execute(conn, "XA PREPARE #{literal(s)}") log_connection_execute(conn, "XA ROLLBACK #{literal(s)}") else super end end # Recognize MySQL set type. def schema_column_type(db_type) case db_type when /\Aset/io :set when /\Amediumint/io :integer when /\Amediumtext/io :string else super end end # Use the MySQL specific DESCRIBE syntax to get a table description. def schema_parse_table(table_name, opts) m = output_identifier_meth(opts[:dataset]) im = input_identifier_meth(opts[:dataset]) table = SQL::Identifier.new(im.call(table_name)) table = SQL::QualifiedIdentifier.new(im.call(opts[:schema]), table) if opts[:schema] metadata_dataset.with_sql("DESCRIBE ?", table).map do |row| extra = row.delete(:Extra) if row[:primary_key] = row.delete(:Key) == 'PRI' row[:auto_increment] = !!(extra.to_s =~ /auto_increment/io) end row[:allow_null] = row.delete(:Null) == 'YES' row[:default] = row.delete(:Default) row[:db_type] = row.delete(:Type) row[:type] = schema_column_type(row[:db_type]) [m.call(row.delete(:Field)), row] end end # Split DROP INDEX ops on MySQL 5.6+, as dropping them in the same # statement as dropping a related foreign key causes an error. def split_alter_table_op?(op) server_version >= 50600 && (op[:op] == :drop_index || (op[:op] == :drop_constraint && op[:type] == :unique)) end # MySQL can combine multiple alter table ops into a single query. def supports_combining_alter_table_ops? true end # MySQL supports CREATE OR REPLACE VIEW. def supports_create_or_replace_view? true end # MySQL does not support named column constraints. def supports_named_column_constraints? false end # Respect the :size option if given to produce # tinyblob, mediumblob, and longblob if :tiny, # :medium, or :long is given. def type_literal_generic_file(column) case column[:size] when :tiny # < 2^8 bytes :tinyblob when :medium # < 2^24 bytes :mediumblob when :long # < 2^32 bytes :longblob else # 2^16 bytes :blob end end # MySQL has both datetime and timestamp classes, most people are going # to want datetime def type_literal_generic_datetime(column) if supports_timestamp_usecs? :'datetime(6)' elsif column[:default] == Sequel::CURRENT_TIMESTAMP :timestamp else :datetime end end # MySQL has both datetime and timestamp classes, most people are going # to want datetime. def type_literal_generic_time(column) if column[:only_time] if supports_timestamp_usecs? :'time(6)' else :time end else type_literal_generic_datetime(column) end end # MySQL doesn't have a true boolean class, so it uses tinyint(1) def type_literal_generic_trueclass(column) :'tinyint(1)' end # MySQL 5.0.2+ supports views with check option. def view_with_check_option_support :local if server_version >= 50002 end end # Dataset methods shared by datasets that use MySQL databases. module DatasetMethods BOOL_TRUE = '1'.freeze BOOL_FALSE = '0'.freeze COMMA_SEPARATOR = ', '.freeze FOR_SHARE = ' LOCK IN SHARE MODE'.freeze SQL_CALC_FOUND_ROWS = ' SQL_CALC_FOUND_ROWS'.freeze APOS = Dataset::APOS APOS_RE = Dataset::APOS_RE DOUBLE_APOS = Dataset::DOUBLE_APOS SPACE = Dataset::SPACE PAREN_OPEN = Dataset::PAREN_OPEN PAREN_CLOSE = Dataset::PAREN_CLOSE NOT_SPACE = Dataset::NOT_SPACE FROM = Dataset::FROM COMMA = Dataset::COMMA LIMIT = Dataset::LIMIT GROUP_BY = Dataset::GROUP_BY ESCAPE = Dataset::ESCAPE BACKSLASH = Dataset::BACKSLASH REGEXP = 'REGEXP'.freeze LIKE = 'LIKE'.freeze BINARY = 'BINARY '.freeze CONCAT = "CONCAT".freeze CAST_BITCOMP_OPEN = "CAST(~".freeze CAST_BITCOMP_CLOSE = " AS SIGNED INTEGER)".freeze STRAIGHT_JOIN = 'STRAIGHT_JOIN'.freeze NATURAL_LEFT_JOIN = 'NATURAL LEFT JOIN'.freeze BACKTICK = '`'.freeze BACKTICK_RE = /`/.freeze DOUBLE_BACKTICK = '``'.freeze EMPTY_COLUMNS = " ()".freeze EMPTY_VALUES = " VALUES ()".freeze IGNORE = " IGNORE".freeze ON_DUPLICATE_KEY_UPDATE = " ON DUPLICATE KEY UPDATE ".freeze EQ_VALUES = '=VALUES('.freeze EQ = '='.freeze WITH_ROLLUP = ' WITH ROLLUP'.freeze MATCH_AGAINST = ["(MATCH ".freeze, " AGAINST (".freeze, "))".freeze].freeze MATCH_AGAINST_BOOLEAN = ["(MATCH ".freeze, " AGAINST (".freeze, " IN BOOLEAN MODE))".freeze].freeze EXPLAIN = 'EXPLAIN '.freeze EXPLAIN_EXTENDED = 'EXPLAIN EXTENDED '.freeze BACKSLASH_RE = /\\/.freeze QUAD_BACKSLASH = "\\\\\\\\".freeze BLOB_START = "0x".freeze EMPTY_BLOB = "''".freeze HSTAR = "H*".freeze CURRENT_TIMESTAMP_56 = 'CURRENT_TIMESTAMP(6)'.freeze # Comes directly from MySQL's documentation, used for queries with limits without offsets ONLY_OFFSET = ",18446744073709551615".freeze NON_SQL_OPTIONS = (Dataset::NON_SQL_OPTIONS + [:insert_ignore, :update_ignore, :on_duplicate_key_update]).freeze Dataset.def_sql_method(self, :delete, %w'delete from where order limit') Dataset.def_sql_method(self, :insert, %w'insert ignore into columns values on_duplicate_key_update') Dataset.def_sql_method(self, :select, %w'select distinct calc_found_rows columns from join where group having compounds order limit lock') Dataset.def_sql_method(self, :update, %w'update ignore table set where order limit') include Sequel::Dataset::Replace # MySQL specific syntax for LIKE/REGEXP searches, as well as # string concatenation. def complex_expression_sql_append(sql, op, args) case op when :IN, :"NOT IN" ds = args.at(1) if ds.is_a?(Sequel::Dataset) && ds.opts[:limit] super(sql, op, [args.at(0), ds.from_self]) else super end when :~, :'!~', :'~*', :'!~*', :LIKE, :'NOT LIKE', :ILIKE, :'NOT ILIKE' sql << PAREN_OPEN literal_append(sql, args.at(0)) sql << SPACE sql << 'NOT ' if [:'NOT LIKE', :'NOT ILIKE', :'!~', :'!~*'].include?(op) sql << ([:~, :'!~', :'~*', :'!~*'].include?(op) ? REGEXP : LIKE) sql << SPACE sql << BINARY if [:~, :'!~', :LIKE, :'NOT LIKE'].include?(op) literal_append(sql, args.at(1)) if [:LIKE, :'NOT LIKE', :ILIKE, :'NOT ILIKE'].include?(op) sql << ESCAPE literal_append(sql, BACKSLASH) end sql << PAREN_CLOSE when :'||' if args.length > 1 sql << CONCAT array_sql_append(sql, args) else literal_append(sql, args.at(0)) end when :'B~' sql << CAST_BITCOMP_OPEN literal_append(sql, args.at(0)) sql << CAST_BITCOMP_CLOSE else super end end # MySQL's CURRENT_TIMESTAMP does not use fractional seconds, # even if the database itself supports fractional seconds. If # MySQL 5.6.4+ is being used, use a value that will return # fractional seconds. def constant_sql_append(sql, constant) if constant == :CURRENT_TIMESTAMP && supports_timestamp_usecs? sql << CURRENT_TIMESTAMP_56 else super end end # Use GROUP BY instead of DISTINCT ON if arguments are provided. def distinct(*args) args.empty? ? super : group(*args) end # Sets up the select methods to use SQL_CALC_FOUND_ROWS option. # # dataset.calc_found_rows.limit(10) # # SELECT SQL_CALC_FOUND_ROWS * FROM table LIMIT 10 def calc_found_rows clone(:calc_found_rows => true) end # Sets up the select methods to delete from if deleting from a # joined dataset: # # DB[:a].join(:b, :a_id=>:id).delete # # DELETE a FROM a INNER JOIN b ON (b.a_id = a.id) # # DB[:a].join(:b, :a_id=>:id).delete_from(:a, :b).delete # # DELETE a, b FROM a INNER JOIN b ON (b.a_id = a.id) def delete_from(*tables) clone(:delete_from=>tables) end # Return the results of an EXPLAIN query as a string. Options: # :extended :: Use EXPLAIN EXPTENDED instead of EXPLAIN if true. def explain(opts=OPTS) # Load the PrettyTable class, needed for explain output Sequel.extension(:_pretty_table) unless defined?(Sequel::PrettyTable) ds = db.send(:metadata_dataset).with_sql((opts[:extended] ? EXPLAIN_EXTENDED : EXPLAIN) + select_sql).naked rows = ds.all Sequel::PrettyTable.string(rows, ds.columns) end # Return a cloned dataset which will use LOCK IN SHARE MODE to lock returned rows. def for_share lock_style(:share) end # Adds full text filter def full_text_search(cols, terms, opts = OPTS) filter(full_text_sql(cols, terms, opts)) end # MySQL specific full text search syntax. def full_text_sql(cols, terms, opts = OPTS) terms = terms.join(' ') if terms.is_a?(Array) SQL::PlaceholderLiteralString.new((opts[:boolean] ? MATCH_AGAINST_BOOLEAN : MATCH_AGAINST), [Array(cols), terms]) end # Transforms an CROSS JOIN to an INNER JOIN if the expr is not nil. # Raises an error on use of :full_outer type, since MySQL doesn't support it. def join_table(type, table, expr=nil, opts=OPTS, &block) type = :inner if (type == :cross) && !expr.nil? raise(Sequel::Error, "MySQL doesn't support FULL OUTER JOIN") if type == :full_outer super(type, table, expr, opts, &block) end # Transforms :natural_inner to NATURAL LEFT JOIN and straight to # STRAIGHT_JOIN. def join_type_sql(join_type) case join_type when :straight STRAIGHT_JOIN when :natural_inner NATURAL_LEFT_JOIN else super end end # Sets up the insert methods to use INSERT IGNORE. # Useful if you have a unique key and want to just skip # inserting rows that violate the unique key restriction. # # dataset.insert_ignore.multi_insert( # [{:name => 'a', :value => 1}, {:name => 'b', :value => 2}] # ) # # INSERT IGNORE INTO tablename (name, value) VALUES (a, 1), (b, 2) def insert_ignore clone(:insert_ignore=>true) end # Sets up the insert methods to use ON DUPLICATE KEY UPDATE # If you pass no arguments, ALL fields will be # updated with the new values. If you pass the fields you # want then ONLY those field will be updated. If you pass a # hash you can customize the values (for example, to increment # a numeric field). # # Useful if you have a unique key and want to update # inserting rows that violate the unique key restriction. # # dataset.on_duplicate_key_update.multi_insert( # [{:name => 'a', :value => 1}, {:name => 'b', :value => 2}] # ) # # INSERT INTO tablename (name, value) VALUES (a, 1), (b, 2) # # ON DUPLICATE KEY UPDATE name=VALUES(name), value=VALUES(value) # # dataset.on_duplicate_key_update(:value).multi_insert( # [{:name => 'a', :value => 1}, {:name => 'b', :value => 2}] # ) # # INSERT INTO tablename (name, value) VALUES (a, 1), (b, 2) # # ON DUPLICATE KEY UPDATE value=VALUES(value) # # dataset.on_duplicate_key_update( # :value => Sequel.lit('value + VALUES(value)') # ).multi_insert( # [{:name => 'a', :value => 1}, {:name => 'b', :value => 2}] # ) # # INSERT INTO tablename (name, value) VALUES (a, 1), (b, 2) # # ON DUPLICATE KEY UPDATE value=value + VALUES(value) def on_duplicate_key_update(*args) clone(:on_duplicate_key_update => args) end # MySQL uses the nonstandard ` (backtick) for quoting identifiers. def quoted_identifier_append(sql, c) sql << BACKTICK << c.to_s.gsub(BACKTICK_RE, DOUBLE_BACKTICK) << BACKTICK end # MySQL does not support derived column lists def supports_derived_column_lists? false end # MySQL can emulate DISTINCT ON with its non-standard GROUP BY implementation, # though the rows returned cannot be made deterministic through ordering. def supports_distinct_on? true end # MySQL supports GROUP BY WITH ROLLUP (but not CUBE) def supports_group_rollup? true end # MySQL does not support INTERSECT or EXCEPT def supports_intersect_except? false end # MySQL does not support limits in correlated subqueries (or any subqueries that use IN). def supports_limits_in_correlated_subqueries? false end # MySQL supports modifying joined datasets def supports_modifying_joins? true end # MySQL's DISTINCT ON emulation using GROUP BY does not respect the # queries ORDER BY clause. def supports_ordered_distinct_on? false end # MySQL supports pattern matching via regular expressions def supports_regexp? true end # MySQL does support fractional timestamps in literal timestamps, but it # ignores them. Also, using them seems to cause problems on 1.9. Since # they are ignored anyway, not using them is probably best. def supports_timestamp_usecs? db.supports_timestamp_usecs? end # Sets up the update methods to use UPDATE IGNORE. # Useful if you have a unique key and want to just skip # updating rows that violate the unique key restriction. # # dataset.update_ignore.update({:name => 'a', :value => 1}) # # UPDATE IGNORE tablename SET name = 'a', value = 1 def update_ignore clone(:update_ignore=>true) end private # Consider the first table in the joined dataset is the table to delete # from, but include the others for the purposes of selecting rows. def delete_from_sql(sql) if joined_dataset? sql << SPACE tables = @opts[:delete_from] || @opts[:from][0..0] source_list_append(sql, tables) sql << FROM source_list_append(sql, @opts[:from]) select_join_sql(sql) else super end end # MySQL doesn't use the SQL standard DEFAULT VALUES. def insert_columns_sql(sql) values = opts[:values] if values.is_a?(Array) && values.empty? sql << EMPTY_COLUMNS else super end end # MySQL supports INSERT IGNORE INTO def insert_ignore_sql(sql) sql << IGNORE if opts[:insert_ignore] end # MySQL supports UPDATE IGNORE def update_ignore_sql(sql) sql << IGNORE if opts[:update_ignore] end # MySQL supports INSERT ... ON DUPLICATE KEY UPDATE def insert_on_duplicate_key_update_sql(sql) if update_cols = opts[:on_duplicate_key_update] update_vals = nil if update_cols.empty? update_cols = columns elsif update_cols.last.is_a?(Hash) update_vals = update_cols.last update_cols = update_cols[0..-2] end sql << ON_DUPLICATE_KEY_UPDATE c = false co = COMMA values = EQ_VALUES endp = PAREN_CLOSE update_cols.each do |col| sql << co if c quote_identifier_append(sql, col) sql << values quote_identifier_append(sql, col) sql << endp c ||= true end if update_vals eq = EQ update_vals.map do |col,v| sql << co if c quote_identifier_append(sql, col) sql << eq literal_append(sql, v) c ||= true end end end end # MySQL doesn't use the standard DEFAULT VALUES for empty values. def insert_values_sql(sql) values = opts[:values] if values.is_a?(Array) && values.empty? sql << EMPTY_VALUES else super end end # MySQL allows a LIMIT in DELETE and UPDATE statements. def limit_sql(sql) if l = @opts[:limit] sql << LIMIT literal_append(sql, l) end end alias delete_limit_sql limit_sql alias update_limit_sql limit_sql # MySQL uses a preceding X for hex escaping strings def literal_blob_append(sql, v) if v.empty? sql << EMPTY_BLOB else sql << BLOB_START << v.unpack(HSTAR).first end end # Use 0 for false on MySQL def literal_false BOOL_FALSE end # Raise error for infinitate and NaN values def literal_float(v) if v.infinite? || v.nan? raise InvalidValue, "Infinite floats and NaN values are not valid on MySQL" else super end end # SQL fragment for String. Doubles \ and ' by default. def literal_string_append(sql, v) sql << APOS << v.gsub(BACKSLASH_RE, QUAD_BACKSLASH).gsub(APOS_RE, DOUBLE_APOS) << APOS end # Use 1 for true on MySQL def literal_true BOOL_TRUE end # MySQL supports multiple rows in INSERT. def multi_insert_sql_strategy :values end # Dataset options that do not affect the generated SQL. def non_sql_options NON_SQL_OPTIONS end def select_only_offset_sql(sql) sql << LIMIT literal_append(sql, @opts[:offset]) sql << ONLY_OFFSET end # Support FOR SHARE locking when using the :share lock style. def select_lock_sql(sql) @opts[:lock] == :share ? (sql << FOR_SHARE) : super end # MySQL specific SQL_CALC_FOUND_ROWS option def select_calc_found_rows_sql(sql) sql << SQL_CALC_FOUND_ROWS if opts[:calc_found_rows] end # MySQL uses WITH ROLLUP syntax. def uses_with_rollup? true end end end end