# frozen_string_literal: true
require "active_support/core_ext/enumerable"
module ActiveRecord
module Associations
# = Active Record Association Collection
#
# CollectionAssociation is an abstract class that provides common stuff to
# ease the implementation of association proxies that represent
# collections. See the class hierarchy in Association.
#
# CollectionAssociation:
# HasManyAssociation => has_many
# HasManyThroughAssociation + ThroughAssociation => has_many :through
#
# The CollectionAssociation class provides common methods to the collections
# defined by +has_and_belongs_to_many+, +has_many+ or +has_many+ with
# the :through association option.
#
# You need to be careful with assumptions regarding the target: The proxy
# does not fetch records from the database until it needs them, but new
# ones created with +build+ are added to the target. So, the target may be
# non-empty and still lack children waiting to be read from the database.
# If you look directly to the database you cannot assume that's the entire
# collection because new records may have been added to the target, etc.
#
# If you need to work on all current children, new and existing records,
# +load_target+ and the +loaded+ flag are your friends.
class CollectionAssociation < Association # :nodoc:
attr_accessor :nested_attributes_target
# Implements the reader method, e.g. foo.items for Foo.has_many :items
def reader
ensure_klass_exists!
if stale_target?
reload
end
@proxy ||= CollectionProxy.create(klass, self)
@proxy.reset_scope
end
# Implements the writer method, e.g. foo.items= for Foo.has_many :items
def writer(records)
replace(records)
end
# Implements the ids reader method, e.g. foo.item_ids for Foo.has_many :items
def ids_reader
if loaded?
target.pluck(reflection.association_primary_key)
elsif !target.empty?
load_target.pluck(reflection.association_primary_key)
else
@association_ids ||= scope.pluck(reflection.association_primary_key)
end
end
# Implements the ids writer method, e.g. foo.item_ids= for Foo.has_many :items
def ids_writer(ids)
primary_key = reflection.association_primary_key
pk_type = klass.type_for_attribute(primary_key)
ids = Array(ids).compact_blank
ids.map! { |id| pk_type.cast(id) }
records = if klass.composite_primary_key?
klass.where(primary_key => ids).index_by do |record|
primary_key.map { |primary_key| record._read_attribute(primary_key) }
end
else
klass.where(primary_key => ids).index_by do |record|
record._read_attribute(primary_key)
end
end.values_at(*ids).compact
if records.size != ids.size
found_ids = records.map { |record| record._read_attribute(primary_key) }
not_found_ids = ids - found_ids
klass.all.raise_record_not_found_exception!(ids, records.size, ids.size, primary_key, not_found_ids)
else
replace(records)
end
end
def reset
super
@target = []
@replaced_or_added_targets = Set.new.compare_by_identity
@association_ids = nil
end
def find(*args)
if options[:inverse_of] && loaded?
args_flatten = args.flatten
model = scope.klass
if args_flatten.blank?
error_message = "Couldn't find #{model.name} without an ID"
raise RecordNotFound.new(error_message, model.name, model.primary_key, args)
end
result = find_by_scan(*args)
result_size = Array(result).size
if !result || result_size != args_flatten.size
scope.raise_record_not_found_exception!(args_flatten, result_size, args_flatten.size)
else
result
end
else
scope.find(*args)
end
end
def build(attributes = nil, &block)
if attributes.is_a?(Array)
attributes.collect { |attr| build(attr, &block) }
else
add_to_target(build_record(attributes, &block), replace: true)
end
end
# Add +records+ to this association. Since +<<+ flattens its argument list
# and inserts each record, +push+ and +concat+ behave identically.
def concat(*records)
records = records.flatten
if owner.new_record?
skip_strict_loading { load_target }
concat_records(records)
else
transaction { concat_records(records) }
end
end
# Removes all records from the association without calling callbacks
# on the associated records. It honors the +:dependent+ option. However
# if the +:dependent+ value is +:destroy+ then in that case the +:delete_all+
# deletion strategy for the association is applied.
#
# You can force a particular deletion strategy by passing a parameter.
#
# Example:
#
# @author.books.delete_all(:nullify)
# @author.books.delete_all(:delete_all)
#
# See delete for more info.
def delete_all(dependent = nil)
if dependent && ![:nullify, :delete_all].include?(dependent)
raise ArgumentError, "Valid values are :nullify or :delete_all"
end
dependent = if dependent
dependent
elsif options[:dependent] == :destroy
:delete_all
else
options[:dependent]
end
delete_or_nullify_all_records(dependent).tap do
reset
loaded!
end
end
# Destroy all the records from this association.
#
# See destroy for more info.
def destroy_all
destroy(load_target).tap do
reset
loaded!
end
end
# Removes +records+ from this association calling +before_remove+ and
# +after_remove+ callbacks.
#
# This method is abstract in the sense that +delete_records+ has to be
# provided by descendants. Note this method does not imply the records
# are actually removed from the database, that depends precisely on
# +delete_records+. They are in any case removed from the collection.
def delete(*records)
delete_or_destroy(records, options[:dependent])
end
# Deletes the +records+ and removes them from this association calling
# +before_remove+, +after_remove+, +before_destroy+ and +after_destroy+ callbacks.
#
# Note that this method removes records from the database ignoring the
# +:dependent+ option.
def destroy(*records)
delete_or_destroy(records, :destroy)
end
# Returns the size of the collection by executing a SELECT COUNT(*)
# query if the collection hasn't been loaded, and calling
# collection.size if it has.
#
# If the collection has been already loaded +size+ and +length+ are
# equivalent. If not and you are going to need the records anyway
# +length+ will take one less query. Otherwise +size+ is more efficient.
#
# This method is abstract in the sense that it relies on
# +count_records+, which is a method descendants have to provide.
def size
if !find_target? || loaded?
target.size
elsif @association_ids
@association_ids.size
elsif !association_scope.group_values.empty?
load_target.size
elsif !association_scope.distinct_value && !target.empty?
unsaved_records = target.select(&:new_record?)
unsaved_records.size + count_records
else
count_records
end
end
# Returns true if the collection is empty.
#
# If the collection has been loaded
# it is equivalent to collection.size.zero?. If the
# collection has not been loaded, it is equivalent to
# !collection.exists?. If the collection has not already been
# loaded and you are going to fetch the records anyway it is better to
# check collection.length.zero?.
def empty?
if loaded? || @association_ids || reflection.has_active_cached_counter?
size.zero?
else
target.empty? && !scope.exists?
end
end
# Replace this collection with +other_array+. This will perform a diff
# and delete/add only records that have changed.
def replace(other_array)
other_array.each { |val| raise_on_type_mismatch!(val) }
original_target = skip_strict_loading { load_target }.dup
if owner.new_record?
replace_records(other_array, original_target)
else
replace_common_records_in_memory(other_array, original_target)
if other_array != original_target
transaction { replace_records(other_array, original_target) }
else
other_array
end
end
end
def include?(record)
if record.is_a?(reflection.klass)
if record.new_record?
include_in_memory?(record)
else
loaded? ? target.include?(record) : scope.exists?(record.id)
end
else
false
end
end
def load_target
if find_target?
@target = merge_target_lists(find_target, target)
end
loaded!
target
end
def add_to_target(record, skip_callbacks: false, replace: false, &block)
replace_on_target(record, skip_callbacks, replace: replace || association_scope.distinct_value, &block)
end
def target=(record)
return super unless reflection.klass.has_many_inversing
case record
when nil
# It's not possible to remove the record from the inverse association.
when Array
super
else
replace_on_target(record, true, replace: true, inversing: true)
end
end
def scope
scope = super
scope.none! if null_scope?
scope
end
def null_scope?
owner.new_record? && !foreign_key_present?
end
def find_from_target?
loaded? ||
(owner.strict_loading? && owner.strict_loading_all?) ||
reflection.strict_loading? ||
owner.new_record? ||
target.any? { |record| record.new_record? || record.changed? }
end
private
def transaction(&block)
reflection.klass.transaction(&block)
end
# We have some records loaded from the database (persisted) and some that are
# in-memory (memory). The same record may be represented in the persisted array
# and in the memory array.
#
# So the task of this method is to merge them according to the following rules:
#
# * The final array must not have duplicates
# * The order of the persisted array is to be preserved
# * Any changes made to attributes on objects in the memory array are to be preserved
# * Otherwise, attributes should have the value found in the database
def merge_target_lists(persisted, memory)
return persisted if memory.empty?
persisted.map! do |record|
if mem_record = memory.delete(record)
((record.attribute_names & mem_record.attribute_names) - mem_record.changed_attribute_names_to_save - mem_record.class._attr_readonly).each do |name|
mem_record._write_attribute(name, record[name])
end
mem_record
else
record
end
end
persisted + memory.reject(&:persisted?)
end
def _create_record(attributes, raise = false, &block)
unless owner.persisted?
raise ActiveRecord::RecordNotSaved.new("You cannot call create unless the parent is saved", owner)
end
if attributes.is_a?(Array)
attributes.collect { |attr| _create_record(attr, raise, &block) }
else
record = build_record(attributes, &block)
transaction do
result = nil
add_to_target(record) do
result = insert_record(record, true, raise) {
@_was_loaded = loaded?
}
end
raise ActiveRecord::Rollback unless result
end
record
end
end
# Do the relevant stuff to insert the given record into the association collection.
def insert_record(record, validate = true, raise = false, &block)
if raise
record.save!(validate: validate, &block)
else
record.save(validate: validate, &block)
end
end
def delete_or_destroy(records, method)
return if records.empty?
records = find(records) if records.any? { |record| record.kind_of?(Integer) || record.kind_of?(String) }
records = records.flatten
records.each { |record| raise_on_type_mismatch!(record) }
existing_records = records.reject(&:new_record?)
if existing_records.empty?
remove_records(existing_records, records, method)
else
transaction { remove_records(existing_records, records, method) }
end
end
def remove_records(existing_records, records, method)
catch(:abort) do
records.each { |record| callback(:before_remove, record) }
end || return
delete_records(existing_records, method) if existing_records.any?
@target -= records
@association_ids = nil
records.each { |record| callback(:after_remove, record) }
end
# Delete the given records from the association,
# using one of the methods +:destroy+, +:delete_all+
# or +:nullify+ (or +nil+, in which case a default is used).
def delete_records(records, method)
raise NotImplementedError
end
def replace_records(new_target, original_target)
delete(difference(target, new_target))
unless concat(difference(new_target, target))
@target = original_target
raise RecordNotSaved, "Failed to replace #{reflection.name} because one or more of the " \
"new records could not be saved."
end
target
end
def replace_common_records_in_memory(new_target, original_target)
common_records = intersection(new_target, original_target)
common_records.each do |record|
skip_callbacks = true
replace_on_target(record, skip_callbacks, replace: true)
end
end
def concat_records(records, raise = false)
result = true
records.each do |record|
raise_on_type_mismatch!(record)
add_to_target(record) do
unless owner.new_record?
result &&= insert_record(record, true, raise) {
@_was_loaded = loaded?
}
end
end
end
raise ActiveRecord::Rollback unless result
records
end
def replace_on_target(record, skip_callbacks, replace:, inversing: false)
if replace && (!record.new_record? || @replaced_or_added_targets.include?(record))
index = @target.index(record)
end
catch(:abort) do
callback(:before_add, record)
end || return unless skip_callbacks
set_inverse_instance(record)
@_was_loaded = true
yield(record) if block_given?
if !index && @replaced_or_added_targets.include?(record)
index = @target.index(record)
end
@replaced_or_added_targets << record if inversing || index || record.new_record?
if index
target[index] = record
elsif @_was_loaded || !loaded?
@association_ids = nil
target << record
end
callback(:after_add, record) unless skip_callbacks
record
ensure
@_was_loaded = nil
end
def callback(method, record)
callbacks_for(method).each do |callback|
callback.call(method, owner, record)
end
end
def callbacks_for(callback_name)
full_callback_name = "#{callback_name}_for_#{reflection.name}"
if owner.class.respond_to?(full_callback_name)
owner.class.send(full_callback_name)
else
[]
end
end
def include_in_memory?(record)
if reflection.is_a?(ActiveRecord::Reflection::ThroughReflection)
assoc = owner.association(reflection.through_reflection.name)
assoc.reader.any? { |source|
target_reflection = source.send(reflection.source_reflection.name)
target_reflection.respond_to?(:include?) ? target_reflection.include?(record) : target_reflection == record
} || target.include?(record)
else
target.include?(record)
end
end
# If the :inverse_of option has been
# specified, then #find scans the entire collection.
def find_by_scan(*args)
expects_array = args.first.kind_of?(Array)
ids = args.flatten.compact.map(&:to_s).uniq
if ids.size == 1
id = ids.first
record = load_target.detect { |r| id == r.id.to_s }
expects_array ? [ record ] : record
else
load_target.select { |r| ids.include?(r.id.to_s) }
end
end
end
end
end