# frozen_string_literal: true require "active_record/insert_all" module ActiveRecord # = Active Record \Persistence module Persistence extend ActiveSupport::Concern module ClassMethods # Creates an object (or multiple objects) and saves it to the database, if validations pass. # The resulting object is returned whether the object was saved successfully to the database or not. # # The +attributes+ parameter can be either a Hash or an Array of Hashes. These Hashes describe the # attributes on the objects that are to be created. # # ==== Examples # # Create a single new object # User.create(first_name: 'Jamie') # # # Create an Array of new objects # User.create([{ first_name: 'Jamie' }, { first_name: 'Jeremy' }]) # # # Create a single object and pass it into a block to set other attributes. # User.create(first_name: 'Jamie') do |u| # u.is_admin = false # end # # # Creating an Array of new objects using a block, where the block is executed for each object: # User.create([{ first_name: 'Jamie' }, { first_name: 'Jeremy' }]) do |u| # u.is_admin = false # end def create(attributes = nil, &block) if attributes.is_a?(Array) attributes.collect { |attr| create(attr, &block) } else object = new(attributes, &block) object.save object end end # Creates an object (or multiple objects) and saves it to the database, # if validations pass. Raises a RecordInvalid error if validations fail, # unlike Base#create. # # The +attributes+ parameter can be either a Hash or an Array of Hashes. # These describe which attributes to be created on the object, or # multiple objects when given an Array of Hashes. def create!(attributes = nil, &block) if attributes.is_a?(Array) attributes.collect { |attr| create!(attr, &block) } else object = new(attributes, &block) object.save! object end end # Inserts a single record into the database in a single SQL INSERT # statement. It does not instantiate any models nor does it trigger # Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # See #insert_all for documentation. def insert(attributes, returning: nil, unique_by: nil, record_timestamps: nil) insert_all([ attributes ], returning: returning, unique_by: unique_by, record_timestamps: record_timestamps) end # Inserts multiple records into the database in a single SQL INSERT # statement. It does not instantiate any models nor does it trigger # Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # The +attributes+ parameter is an Array of Hashes. Every Hash determines # the attributes for a single row and must have the same keys. # # Rows are considered to be unique by every unique index on the table. Any # duplicate rows are skipped. # Override with :unique_by (see below). # # Returns an ActiveRecord::Result with its contents based on # :returning (see below). # # ==== Options # # [:returning] # (PostgreSQL only) An array of attributes to return for all successfully # inserted records, which by default is the primary key. # Pass returning: %w[ id name ] for both id and name # or returning: false to omit the underlying RETURNING SQL # clause entirely. # # You can also pass an SQL string if you need more control on the return values # (for example, returning: "id, name as new_name"). # # [:unique_by] # (PostgreSQL and SQLite only) By default rows are considered to be unique # by every unique index on the table. Any duplicate rows are skipped. # # To skip rows according to just one unique index pass :unique_by. # # Consider a Book model where no duplicate ISBNs make sense, but if any # row has an existing id, or is not unique by another unique index, # ActiveRecord::RecordNotUnique is raised. # # Unique indexes can be identified by columns or name: # # unique_by: :isbn # unique_by: %i[ author_id name ] # unique_by: :index_books_on_isbn # # [:record_timestamps] # By default, automatic setting of timestamp columns is controlled by # the model's record_timestamps config, matching typical # behavior. # # To override this and force automatic setting of timestamp columns one # way or the other, pass :record_timestamps: # # record_timestamps: true # Always set timestamps automatically # record_timestamps: false # Never set timestamps automatically # # Because it relies on the index information from the database # :unique_by is recommended to be paired with # Active Record's schema_cache. # # ==== Example # # # Insert records and skip inserting any duplicates. # # Here "Eloquent Ruby" is skipped because its id is not unique. # # Book.insert_all([ # { id: 1, title: "Rework", author: "David" }, # { id: 1, title: "Eloquent Ruby", author: "Russ" } # ]) # # # insert_all works on chained scopes, and you can use create_with # # to set default attributes for all inserted records. # # author.books.create_with(created_at: Time.now).insert_all([ # { id: 1, title: "Rework" }, # { id: 2, title: "Eloquent Ruby" } # ]) def insert_all(attributes, returning: nil, unique_by: nil, record_timestamps: nil) InsertAll.new(self, attributes, on_duplicate: :skip, returning: returning, unique_by: unique_by, record_timestamps: record_timestamps).execute end # Inserts a single record into the database in a single SQL INSERT # statement. It does not instantiate any models nor does it trigger # Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # See #insert_all! for more. def insert!(attributes, returning: nil, record_timestamps: nil) insert_all!([ attributes ], returning: returning, record_timestamps: record_timestamps) end # Inserts multiple records into the database in a single SQL INSERT # statement. It does not instantiate any models nor does it trigger # Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # The +attributes+ parameter is an Array of Hashes. Every Hash determines # the attributes for a single row and must have the same keys. # # Raises ActiveRecord::RecordNotUnique if any rows violate a # unique index on the table. In that case, no rows are inserted. # # To skip duplicate rows, see #insert_all. To replace them, see #upsert_all. # # Returns an ActiveRecord::Result with its contents based on # :returning (see below). # # ==== Options # # [:returning] # (PostgreSQL only) An array of attributes to return for all successfully # inserted records, which by default is the primary key. # Pass returning: %w[ id name ] for both id and name # or returning: false to omit the underlying RETURNING SQL # clause entirely. # # You can also pass an SQL string if you need more control on the return values # (for example, returning: "id, name as new_name"). # # [:record_timestamps] # By default, automatic setting of timestamp columns is controlled by # the model's record_timestamps config, matching typical # behavior. # # To override this and force automatic setting of timestamp columns one # way or the other, pass :record_timestamps: # # record_timestamps: true # Always set timestamps automatically # record_timestamps: false # Never set timestamps automatically # # ==== Examples # # # Insert multiple records # Book.insert_all!([ # { title: "Rework", author: "David" }, # { title: "Eloquent Ruby", author: "Russ" } # ]) # # # Raises ActiveRecord::RecordNotUnique because "Eloquent Ruby" # # does not have a unique id. # Book.insert_all!([ # { id: 1, title: "Rework", author: "David" }, # { id: 1, title: "Eloquent Ruby", author: "Russ" } # ]) def insert_all!(attributes, returning: nil, record_timestamps: nil) InsertAll.new(self, attributes, on_duplicate: :raise, returning: returning, record_timestamps: record_timestamps).execute end # Updates or inserts (upserts) a single record into the database in a # single SQL INSERT statement. It does not instantiate any models nor does # it trigger Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # See #upsert_all for documentation. def upsert(attributes, on_duplicate: :update, returning: nil, unique_by: nil, record_timestamps: nil) upsert_all([ attributes ], on_duplicate: on_duplicate, returning: returning, unique_by: unique_by, record_timestamps: record_timestamps) end # Updates or inserts (upserts) multiple records into the database in a # single SQL INSERT statement. It does not instantiate any models nor does # it trigger Active Record callbacks or validations. Though passed values # go through Active Record's type casting and serialization. # # The +attributes+ parameter is an Array of Hashes. Every Hash determines # the attributes for a single row and must have the same keys. # # Returns an ActiveRecord::Result with its contents based on # :returning (see below). # # By default, +upsert_all+ will update all the columns that can be updated when # there is a conflict. These are all the columns except primary keys, read-only # columns, and columns covered by the optional +unique_by+. # # ==== Options # # [:returning] # (PostgreSQL only) An array of attributes to return for all successfully # inserted records, which by default is the primary key. # Pass returning: %w[ id name ] for both id and name # or returning: false to omit the underlying RETURNING SQL # clause entirely. # # You can also pass an SQL string if you need more control on the return values # (for example, returning: "id, name as new_name"). # # [:unique_by] # (PostgreSQL and SQLite only) By default rows are considered to be unique # by every unique index on the table. Any duplicate rows are skipped. # # To skip rows according to just one unique index pass :unique_by. # # Consider a Book model where no duplicate ISBNs make sense, but if any # row has an existing id, or is not unique by another unique index, # ActiveRecord::RecordNotUnique is raised. # # Unique indexes can be identified by columns or name: # # unique_by: :isbn # unique_by: %i[ author_id name ] # unique_by: :index_books_on_isbn # # Because it relies on the index information from the database # :unique_by is recommended to be paired with # Active Record's schema_cache. # # [:on_duplicate] # Configure the SQL update sentence that will be used in case of conflict. # # NOTE: If you use this option you must provide all the columns you want to update # by yourself. # # Example: # # Commodity.upsert_all( # [ # { id: 2, name: "Copper", price: 4.84 }, # { id: 4, name: "Gold", price: 1380.87 }, # { id: 6, name: "Aluminium", price: 0.35 } # ], # on_duplicate: Arel.sql("price = GREATEST(commodities.price, EXCLUDED.price)") # ) # # See the related +:update_only+ option. Both options can't be used at the same time. # # [:update_only] # Provide a list of column names that will be updated in case of conflict. If not provided, # +upsert_all+ will update all the columns that can be updated. These are all the columns # except primary keys, read-only columns, and columns covered by the optional +unique_by+ # # Example: # # Commodity.upsert_all( # [ # { id: 2, name: "Copper", price: 4.84 }, # { id: 4, name: "Gold", price: 1380.87 }, # { id: 6, name: "Aluminium", price: 0.35 } # ], # update_only: [:price] # Only prices will be updated # ) # # See the related +:on_duplicate+ option. Both options can't be used at the same time. # # [:record_timestamps] # By default, automatic setting of timestamp columns is controlled by # the model's record_timestamps config, matching typical # behavior. # # To override this and force automatic setting of timestamp columns one # way or the other, pass :record_timestamps: # # record_timestamps: true # Always set timestamps automatically # record_timestamps: false # Never set timestamps automatically # # ==== Examples # # # Inserts multiple records, performing an upsert when records have duplicate ISBNs. # # Here "Eloquent Ruby" overwrites "Rework" because its ISBN is duplicate. # # Book.upsert_all([ # { title: "Rework", author: "David", isbn: "1" }, # { title: "Eloquent Ruby", author: "Russ", isbn: "1" } # ], unique_by: :isbn) # # Book.find_by(isbn: "1").title # => "Eloquent Ruby" def upsert_all(attributes, on_duplicate: :update, update_only: nil, returning: nil, unique_by: nil, record_timestamps: nil) InsertAll.new(self, attributes, on_duplicate: on_duplicate, update_only: update_only, returning: returning, unique_by: unique_by, record_timestamps: record_timestamps).execute end # Given an attributes hash, +instantiate+ returns a new instance of # the appropriate class. Accepts only keys as strings. # # For example, +Post.all+ may return Comments, Messages, and Emails # by storing the record's subclass in a +type+ attribute. By calling # +instantiate+ instead of +new+, finder methods ensure they get new # instances of the appropriate class for each record. # # See ActiveRecord::Inheritance#discriminate_class_for_record to see # how this "single-table" inheritance mapping is implemented. def instantiate(attributes, column_types = {}, &block) klass = discriminate_class_for_record(attributes) instantiate_instance_of(klass, attributes, column_types, &block) end # Updates an object (or multiple objects) and saves it to the database, if validations pass. # The resulting object is returned whether the object was saved successfully to the database or not. # # ==== Parameters # # * +id+ - This should be the id or an array of ids to be updated. # Optional argument, defaults to all records in the relation. # * +attributes+ - This should be a hash of attributes or an array of hashes. # # ==== Examples # # # Updates one record # Person.update(15, user_name: "Samuel", group: "expert") # # # Updates multiple records # people = { 1 => { "first_name" => "David" }, 2 => { "first_name" => "Jeremy" } } # Person.update(people.keys, people.values) # # # Updates multiple records from the result of a relation # people = Person.where(group: "expert") # people.update(group: "masters") # # Note: Updating a large number of records will run an UPDATE # query for each record, which may cause a performance issue. # When running callbacks is not needed for each record update, # it is preferred to use {update_all}[rdoc-ref:Relation#update_all] # for updating all records in a single query. def update(id = :all, attributes) if id.is_a?(Array) if id.any?(ActiveRecord::Base) raise ArgumentError, "You are passing an array of ActiveRecord::Base instances to `update`. " \ "Please pass the ids of the objects by calling `pluck(:id)` or `map(&:id)`." end id.map { |one_id| find(one_id) }.each_with_index { |object, idx| object.update(attributes[idx]) } elsif id == :all all.each { |record| record.update(attributes) } else if ActiveRecord::Base === id raise ArgumentError, "You are passing an instance of ActiveRecord::Base to `update`. " \ "Please pass the id of the object by calling `.id`." end object = find(id) object.update(attributes) object end end # Updates the object (or multiple objects) just like #update but calls #update! instead # of +update+, so an exception is raised if the record is invalid and saving will fail. def update!(id = :all, attributes) if id.is_a?(Array) if id.any?(ActiveRecord::Base) raise ArgumentError, "You are passing an array of ActiveRecord::Base instances to `update!`. " \ "Please pass the ids of the objects by calling `pluck(:id)` or `map(&:id)`." end id.map { |one_id| find(one_id) }.each_with_index { |object, idx| object.update!(attributes[idx]) } elsif id == :all all.each { |record| record.update!(attributes) } else if ActiveRecord::Base === id raise ArgumentError, "You are passing an instance of ActiveRecord::Base to `update!`. " \ "Please pass the id of the object by calling `.id`." end object = find(id) object.update!(attributes) object end end # Destroy an object (or multiple objects) that has the given id. The object is instantiated first, # therefore all callbacks and filters are fired off before the object is deleted. This method is # less efficient than #delete but allows cleanup methods and other actions to be run. # # This essentially finds the object (or multiple objects) with the given id, creates a new object # from the attributes, and then calls destroy on it. # # ==== Parameters # # * +id+ - This should be the id or an array of ids to be destroyed. # # ==== Examples # # # Destroy a single object # Todo.destroy(1) # # # Destroy multiple objects # todos = [1,2,3] # Todo.destroy(todos) def destroy(id) if id.is_a?(Array) find(id).each(&:destroy) else find(id).destroy end end # Deletes the row with a primary key matching the +id+ argument, using an # SQL +DELETE+ statement, and returns the number of rows deleted. Active # Record objects are not instantiated, so the object's callbacks are not # executed, including any :dependent association options. # # You can delete multiple rows at once by passing an Array of ids. # # Note: Although it is often much faster than the alternative, #destroy, # skipping callbacks might bypass business logic in your application # that ensures referential integrity or performs other essential jobs. # # ==== Examples # # # Delete a single row # Todo.delete(1) # # # Delete multiple rows # Todo.delete([2,3,4]) def delete(id_or_array) delete_by(primary_key => id_or_array) end def _insert_record(values) # :nodoc: primary_key = self.primary_key primary_key_value = nil if prefetch_primary_key? && primary_key values[primary_key] ||= begin primary_key_value = next_sequence_value _default_attributes[primary_key].with_cast_value(primary_key_value) end end im = Arel::InsertManager.new(arel_table) if values.empty? im.insert(connection.empty_insert_statement_value(primary_key)) else im.insert(values.transform_keys { |name| arel_table[name] }) end connection.insert(im, "#{self} Create", primary_key || false, primary_key_value) end def _update_record(values, constraints) # :nodoc: constraints = constraints.map { |name, value| predicate_builder[name, value] } default_constraint = build_default_constraint constraints << default_constraint if default_constraint if current_scope = self.global_current_scope constraints << current_scope.where_clause.ast end um = Arel::UpdateManager.new(arel_table) um.set(values.transform_keys { |name| arel_table[name] }) um.wheres = constraints connection.update(um, "#{self} Update") end def _delete_record(constraints) # :nodoc: constraints = constraints.map { |name, value| predicate_builder[name, value] } default_constraint = build_default_constraint constraints << default_constraint if default_constraint if current_scope = self.global_current_scope constraints << current_scope.where_clause.ast end dm = Arel::DeleteManager.new(arel_table) dm.wheres = constraints connection.delete(dm, "#{self} Destroy") end private # Given a class, an attributes hash, +instantiate_instance_of+ returns a # new instance of the class. Accepts only keys as strings. def instantiate_instance_of(klass, attributes, column_types = {}, &block) attributes = klass.attributes_builder.build_from_database(attributes, column_types) klass.allocate.init_with_attributes(attributes, &block) end # Called by +instantiate+ to decide which class to use for a new # record instance. # # See +ActiveRecord::Inheritance#discriminate_class_for_record+ for # the single-table inheritance discriminator. def discriminate_class_for_record(record) self end # Called by +_update_record+ and +_delete_record+ # to build `where` clause from default scopes. # Skips empty scopes. def build_default_constraint return unless default_scopes?(all_queries: true) default_where_clause = default_scoped(all_queries: true).where_clause default_where_clause.ast unless default_where_clause.empty? end end # Returns true if this object hasn't been saved yet -- that is, a record # for the object doesn't exist in the database yet; otherwise, returns false. def new_record? @new_record end # Returns true if this object was just created -- that is, prior to the last # save, the object didn't exist in the database and new_record? would have # returned true. def previously_new_record? @previously_new_record end # Returns true if this object was previously persisted but now it has been deleted. def previously_persisted? !new_record? && destroyed? end # Returns true if this object has been destroyed, otherwise returns false. def destroyed? @destroyed end # Returns true if the record is persisted, i.e. it's not a new record and it was # not destroyed, otherwise returns false. def persisted? !(@new_record || @destroyed) end ## # :call-seq: # save(**options) # # Saves the model. # # If the model is new, a record gets created in the database, otherwise # the existing record gets updated. # # By default, save always runs validations. If any of them fail the action # is cancelled and #save returns +false+, and the record won't be saved. However, if you supply # validate: false, validations are bypassed altogether. See # ActiveRecord::Validations for more information. # # By default, #save also sets the +updated_at+/+updated_on+ attributes to # the current time. However, if you supply touch: false, these # timestamps will not be updated. # # There's a series of callbacks associated with #save. If any of the # before_* callbacks throws +:abort+ the action is cancelled and # #save returns +false+. See ActiveRecord::Callbacks for further # details. # # Attributes marked as readonly are silently ignored if the record is # being updated. def save(**options, &block) create_or_update(**options, &block) rescue ActiveRecord::RecordInvalid false end ## # :call-seq: # save!(**options) # # Saves the model. # # If the model is new, a record gets created in the database, otherwise # the existing record gets updated. # # By default, #save! always runs validations. If any of them fail # ActiveRecord::RecordInvalid gets raised, and the record won't be saved. However, if you supply # validate: false, validations are bypassed altogether. See # ActiveRecord::Validations for more information. # # By default, #save! also sets the +updated_at+/+updated_on+ attributes to # the current time. However, if you supply touch: false, these # timestamps will not be updated. # # There's a series of callbacks associated with #save!. If any of # the before_* callbacks throws +:abort+ the action is cancelled # and #save! raises ActiveRecord::RecordNotSaved. See # ActiveRecord::Callbacks for further details. # # Attributes marked as readonly are silently ignored if the record is # being updated. # # Unless an error is raised, returns true. def save!(**options, &block) create_or_update(**options, &block) || raise(RecordNotSaved.new("Failed to save the record", self)) end # Deletes the record in the database and freezes this instance to # reflect that no changes should be made (since they can't be # persisted). Returns the frozen instance. # # The row is simply removed with an SQL +DELETE+ statement on the # record's primary key, and no callbacks are executed. # # Note that this will also delete records marked as {#readonly?}[rdoc-ref:Core#readonly?]. # # To enforce the object's +before_destroy+ and +after_destroy+ # callbacks or any :dependent association # options, use #destroy. def delete _delete_row if persisted? @destroyed = true freeze end # Deletes the record in the database and freezes this instance to reflect # that no changes should be made (since they can't be persisted). # # There's a series of callbacks associated with #destroy. If the # before_destroy callback throws +:abort+ the action is cancelled # and #destroy returns +false+. # See ActiveRecord::Callbacks for further details. def destroy _raise_readonly_record_error if readonly? destroy_associations @_trigger_destroy_callback = if persisted? destroy_row > 0 else true end @destroyed = true freeze end # Deletes the record in the database and freezes this instance to reflect # that no changes should be made (since they can't be persisted). # # There's a series of callbacks associated with #destroy!. If the # before_destroy callback throws +:abort+ the action is cancelled # and #destroy! raises ActiveRecord::RecordNotDestroyed. # See ActiveRecord::Callbacks for further details. def destroy! destroy || _raise_record_not_destroyed end # Returns an instance of the specified +klass+ with the attributes of the # current record. This is mostly useful in relation to single table # inheritance (STI) structures where you want a subclass to appear as the # superclass. This can be used along with record identification in # Action Pack to allow, say, Client < Company to do something # like render partial: @client.becomes(Company) to render that # instance using the companies/company partial instead of clients/client. # # Note: The new instance will share a link to the same attributes as the original class. # Therefore the STI column value will still be the same. # Any change to the attributes on either instance will affect both instances. # If you want to change the STI column as well, use #becomes! instead. def becomes(klass) became = klass.allocate became.send(:initialize) do |becoming| becoming.instance_variable_set(:@attributes, @attributes) becoming.instance_variable_set(:@mutations_from_database, @mutations_from_database ||= nil) becoming.instance_variable_set(:@new_record, new_record?) becoming.instance_variable_set(:@destroyed, destroyed?) becoming.errors.copy!(errors) end became end # Wrapper around #becomes that also changes the instance's STI column value. # This is especially useful if you want to persist the changed class in your # database. # # Note: The old instance's STI column value will be changed too, as both objects # share the same set of attributes. def becomes!(klass) became = becomes(klass) sti_type = nil if !klass.descends_from_active_record? sti_type = klass.sti_name end became.public_send("#{klass.inheritance_column}=", sti_type) became end # Updates a single attribute and saves the record. # This is especially useful for boolean flags on existing records. Also note that # # * Validation is skipped. # * \Callbacks are invoked. # * updated_at/updated_on column is updated if that column is available. # * Updates all the attributes that are dirty in this object. # # This method raises an ActiveRecord::ActiveRecordError if the # attribute is marked as readonly. # # Also see #update_column. def update_attribute(name, value) name = name.to_s verify_readonly_attribute(name) public_send("#{name}=", value) save(validate: false) end # Updates the attributes of the model from the passed-in hash and saves the # record, all wrapped in a transaction. If the object is invalid, the saving # will fail and false will be returned. def update(attributes) # The following transaction covers any possible database side-effects of the # attributes assignment. For example, setting the IDs of a child collection. with_transaction_returning_status do assign_attributes(attributes) save end end # Updates its receiver just like #update but calls #save! instead # of +save+, so an exception is raised if the record is invalid and saving will fail. def update!(attributes) # The following transaction covers any possible database side-effects of the # attributes assignment. For example, setting the IDs of a child collection. with_transaction_returning_status do assign_attributes(attributes) save! end end # Equivalent to update_columns(name => value). def update_column(name, value) update_columns(name => value) end # Updates the attributes directly in the database issuing an UPDATE SQL # statement and sets them in the receiver: # # user.update_columns(last_request_at: Time.current) # # This is the fastest way to update attributes because it goes straight to # the database, but take into account that in consequence the regular update # procedures are totally bypassed. In particular: # # * \Validations are skipped. # * \Callbacks are skipped. # * +updated_at+/+updated_on+ are not updated. # * However, attributes are serialized with the same rules as ActiveRecord::Relation#update_all # # This method raises an ActiveRecord::ActiveRecordError when called on new # objects, or when at least one of the attributes is marked as readonly. def update_columns(attributes) raise ActiveRecordError, "cannot update a new record" if new_record? raise ActiveRecordError, "cannot update a destroyed record" if destroyed? _raise_readonly_record_error if readonly? attributes = attributes.transform_keys do |key| name = key.to_s name = self.class.attribute_aliases[name] || name verify_readonly_attribute(name) || name end update_constraints = _primary_key_constraints_hash attributes = attributes.each_with_object({}) do |(k, v), h| h[k] = @attributes.write_cast_value(k, v) clear_attribute_change(k) end affected_rows = self.class._update_record( attributes, update_constraints ) affected_rows == 1 end # Initializes +attribute+ to zero if +nil+ and adds the value passed as +by+ (default is 1). # The increment is performed directly on the underlying attribute, no setter is invoked. # Only makes sense for number-based attributes. Returns +self+. def increment(attribute, by = 1) self[attribute] ||= 0 self[attribute] += by self end # Wrapper around #increment that writes the update to the database. # Only +attribute+ is updated; the record itself is not saved. # This means that any other modified attributes will still be dirty. # Validations and callbacks are skipped. Supports the +touch+ option from # +update_counters+, see that for more. # Returns +self+. def increment!(attribute, by = 1, touch: nil) increment(attribute, by) change = public_send(attribute) - (public_send(:"#{attribute}_in_database") || 0) self.class.update_counters(id, attribute => change, touch: touch) public_send(:"clear_#{attribute}_change") self end # Initializes +attribute+ to zero if +nil+ and subtracts the value passed as +by+ (default is 1). # The decrement is performed directly on the underlying attribute, no setter is invoked. # Only makes sense for number-based attributes. Returns +self+. def decrement(attribute, by = 1) increment(attribute, -by) end # Wrapper around #decrement that writes the update to the database. # Only +attribute+ is updated; the record itself is not saved. # This means that any other modified attributes will still be dirty. # Validations and callbacks are skipped. Supports the +touch+ option from # +update_counters+, see that for more. # Returns +self+. def decrement!(attribute, by = 1, touch: nil) increment!(attribute, -by, touch: touch) end # Assigns to +attribute+ the boolean opposite of attribute?. So # if the predicate returns +true+ the attribute will become +false+. This # method toggles directly the underlying value without calling any setter. # Returns +self+. # # Example: # # user = User.first # user.banned? # => false # user.toggle(:banned) # user.banned? # => true # def toggle(attribute) self[attribute] = !public_send("#{attribute}?") self end # Wrapper around #toggle that saves the record. This method differs from # its non-bang version in the sense that it passes through the attribute setter. # Saving is not subjected to validation checks. Returns +true+ if the # record could be saved. def toggle!(attribute) toggle(attribute).update_attribute(attribute, self[attribute]) end # Reloads the record from the database. # # This method finds the record by its primary key (which could be assigned # manually) and modifies the receiver in-place: # # account = Account.new # # => # # account.id = 1 # account.reload # # Account Load (1.2ms) SELECT "accounts".* FROM "accounts" WHERE "accounts"."id" = $1 LIMIT 1 [["id", 1]] # # => # # # Attributes are reloaded from the database, and caches busted, in # particular the associations cache and the QueryCache. # # If the record no longer exists in the database ActiveRecord::RecordNotFound # is raised. Otherwise, in addition to the in-place modification the method # returns +self+ for convenience. # # The optional :lock flag option allows you to lock the reloaded record: # # reload(lock: true) # reload with pessimistic locking # # Reloading is commonly used in test suites to test something is actually # written to the database, or when some action modifies the corresponding # row in the database but not the object in memory: # # assert account.deposit!(25) # assert_equal 25, account.credit # check it is updated in memory # assert_equal 25, account.reload.credit # check it is also persisted # # Another common use case is optimistic locking handling: # # def with_optimistic_retry # begin # yield # rescue ActiveRecord::StaleObjectError # begin # # Reload lock_version in particular. # reload # rescue ActiveRecord::RecordNotFound # # If the record is gone there is nothing to do. # else # retry # end # end # end # def reload(options = nil) self.class.connection.clear_query_cache fresh_object = if apply_scoping?(options) _find_record(options) else self.class.unscoped { _find_record(options) } end @association_cache = fresh_object.instance_variable_get(:@association_cache) @attributes = fresh_object.instance_variable_get(:@attributes) @new_record = false @previously_new_record = false self end # Saves the record with the updated_at/on attributes set to the current time # or the time specified. # Please note that no validation is performed and only the +after_touch+, # +after_commit+ and +after_rollback+ callbacks are executed. # # This method can be passed attribute names and an optional time argument. # If attribute names are passed, they are updated along with updated_at/on # attributes. If no time argument is passed, the current time is used as default. # # product.touch # updates updated_at/on with current time # product.touch(time: Time.new(2015, 2, 16, 0, 0, 0)) # updates updated_at/on with specified time # product.touch(:designed_at) # updates the designed_at attribute and updated_at/on # product.touch(:started_at, :ended_at) # updates started_at, ended_at and updated_at/on attributes # # If used along with {belongs_to}[rdoc-ref:Associations::ClassMethods#belongs_to] # then +touch+ will invoke +touch+ method on associated object. # # class Brake < ActiveRecord::Base # belongs_to :car, touch: true # end # # class Car < ActiveRecord::Base # belongs_to :corporation, touch: true # end # # # triggers @brake.car.touch and @brake.car.corporation.touch # @brake.touch # # Note that +touch+ must be used on a persisted object, or else an # ActiveRecordError will be thrown. For example: # # ball = Ball.new # ball.touch(:updated_at) # => raises ActiveRecordError # def touch(*names, time: nil) _raise_record_not_touched_error unless persisted? _raise_readonly_record_error if readonly? attribute_names = timestamp_attributes_for_update_in_model attribute_names |= names.map! do |name| name = name.to_s self.class.attribute_aliases[name] || name end unless names.empty? unless attribute_names.empty? affected_rows = _touch_row(attribute_names, time) @_trigger_update_callback = affected_rows == 1 else true end end private def strict_loaded_associations @association_cache.find_all do |_, assoc| assoc.owner.strict_loading? && !assoc.owner.strict_loading_n_plus_one_only? end.map(&:first) end def _find_record(options) if options && options[:lock] self.class.preload(strict_loaded_associations).lock(options[:lock]).find(id) else self.class.preload(strict_loaded_associations).find(id) end end def apply_scoping?(options) !(options && options[:unscoped]) && (self.class.default_scopes?(all_queries: true) || self.class.global_current_scope) end def _primary_key_constraints_hash { @primary_key => id_in_database } end # A hook to be overridden by association modules. def destroy_associations end def destroy_row _delete_row end def _delete_row self.class._delete_record(_primary_key_constraints_hash) end def _touch_row(attribute_names, time) time ||= current_time_from_proper_timezone attribute_names.each do |attr_name| _write_attribute(attr_name, time) end _update_row(attribute_names, "touch") end def _update_row(attribute_names, attempted_action = "update") self.class._update_record( attributes_with_values(attribute_names), _primary_key_constraints_hash ) end def create_or_update(**, &block) _raise_readonly_record_error if readonly? return false if destroyed? result = new_record? ? _create_record(&block) : _update_record(&block) result != false end # Updates the associated record with values matching those of the instance attributes. # Returns the number of affected rows. def _update_record(attribute_names = self.attribute_names) attribute_names = attributes_for_update(attribute_names) if attribute_names.empty? affected_rows = 0 @_trigger_update_callback = true else affected_rows = _update_row(attribute_names) @_trigger_update_callback = affected_rows == 1 end @previously_new_record = false yield(self) if block_given? affected_rows end # Creates a record with values matching those of the instance attributes # and returns its id. def _create_record(attribute_names = self.attribute_names) attribute_names = attributes_for_create(attribute_names) new_id = self.class._insert_record( attributes_with_values(attribute_names) ) self.id ||= new_id if @primary_key @new_record = false @previously_new_record = true yield(self) if block_given? id end def verify_readonly_attribute(name) raise ActiveRecordError, "#{name} is marked as readonly" if self.class.readonly_attribute?(name) end def _raise_record_not_destroyed @_association_destroy_exception ||= nil key = self.class.primary_key raise @_association_destroy_exception || RecordNotDestroyed.new("Failed to destroy #{self.class} with #{key}=#{send(key)}", self) ensure @_association_destroy_exception = nil end def _raise_readonly_record_error raise ReadOnlyRecord, "#{self.class} is marked as readonly" end def _raise_record_not_touched_error raise ActiveRecordError, <<~MSG.squish Cannot touch on a new or destroyed record object. Consider using persisted?, new_record?, or destroyed? before touching. MSG end # The name of the method used to touch a +belongs_to+ association when the # +:touch+ option is used. def belongs_to_touch_method :touch end end end