sorbet/rbi/dsl/action_text/rich_text.rbi
# typed: true
# DO NOT EDIT MANUALLY
# This is an autogenerated file for dynamic methods in `ActionText::RichText`.
# Please instead update this file by running `bin/tapioca dsl ActionText::RichText`.
class ActionText::RichText
include GeneratedAssociationMethods
extend CommonRelationMethods
extend GeneratedRelationMethods
sig { returns(ActiveStorage::Attached::Many) }
def embeds; end
sig { params(attachable: T.untyped).returns(T.untyped) }
def embeds=(attachable); end
private
sig { returns(NilClass) }
def to_ary; end
module CommonRelationMethods
sig do
params(
block: T.nilable(T.proc.params(record: ::ActionText::RichText).returns(T.untyped))
).returns(T::Boolean)
end
def any?(&block); end
sig { params(column_name: T.any(String, Symbol)).returns(T.any(Integer, Float, BigDecimal)) }
def average(column_name); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def build(attributes = nil, &block); end
sig { params(operation: Symbol, column_name: T.any(String, Symbol)).returns(T.any(Integer, Float, BigDecimal)) }
def calculate(operation, column_name); end
sig { params(column_name: T.nilable(T.any(String, Symbol))).returns(Integer) }
sig { params(column_name: NilClass, block: T.proc.params(object: ::ActionText::RichText).void).returns(Integer) }
def count(column_name = nil, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def create(attributes = nil, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def create!(attributes = nil, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def create_or_find_by(attributes, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def create_or_find_by!(attributes, &block); end
sig { returns(T::Array[::ActionText::RichText]) }
def destroy_all; end
sig { params(conditions: T.untyped).returns(T::Boolean) }
def exists?(conditions = :none); end
sig { returns(T.nilable(::ActionText::RichText)) }
def fifth; end
sig { returns(::ActionText::RichText) }
def fifth!; end
sig do
params(
args: T.any(String, Symbol, ::ActiveSupport::Multibyte::Chars, T::Boolean, BigDecimal, Numeric, ::ActiveRecord::Type::Binary::Data, ::ActiveRecord::Type::Time::Value, Date, Time, ::ActiveSupport::Duration, T::Class[T.anything])
).returns(::ActionText::RichText)
end
sig do
params(
args: T::Array[T.any(String, Symbol, ::ActiveSupport::Multibyte::Chars, T::Boolean, BigDecimal, Numeric, ::ActiveRecord::Type::Binary::Data, ::ActiveRecord::Type::Time::Value, Date, Time, ::ActiveSupport::Duration, T::Class[T.anything])]
).returns(T::Enumerable[::ActionText::RichText])
end
sig do
params(
args: NilClass,
block: T.proc.params(object: ::ActionText::RichText).void
).returns(T.nilable(::ActionText::RichText))
end
def find(args = nil, &block); end
sig { params(args: T.untyped).returns(T.nilable(::ActionText::RichText)) }
def find_by(*args); end
sig { params(args: T.untyped).returns(::ActionText::RichText) }
def find_by!(*args); end
sig do
params(
start: T.untyped,
finish: T.untyped,
batch_size: Integer,
error_on_ignore: T.untyped,
order: Symbol,
block: T.proc.params(object: ::ActionText::RichText).void
).void
end
sig do
params(
start: T.untyped,
finish: T.untyped,
batch_size: Integer,
error_on_ignore: T.untyped,
order: Symbol
).returns(T::Enumerator[::ActionText::RichText])
end
def find_each(start: nil, finish: nil, batch_size: 1000, error_on_ignore: nil, order: :asc, &block); end
sig do
params(
start: T.untyped,
finish: T.untyped,
batch_size: Integer,
error_on_ignore: T.untyped,
order: Symbol,
block: T.proc.params(object: T::Array[::ActionText::RichText]).void
).void
end
sig do
params(
start: T.untyped,
finish: T.untyped,
batch_size: Integer,
error_on_ignore: T.untyped,
order: Symbol
).returns(T::Enumerator[T::Enumerator[::ActionText::RichText]])
end
def find_in_batches(start: nil, finish: nil, batch_size: 1000, error_on_ignore: nil, order: :asc, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def find_or_create_by(attributes, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def find_or_create_by!(attributes, &block); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def find_or_initialize_by(attributes, &block); end
sig { params(signed_id: T.untyped, purpose: T.untyped).returns(T.nilable(::ActionText::RichText)) }
def find_signed(signed_id, purpose: nil); end
sig { params(signed_id: T.untyped, purpose: T.untyped).returns(::ActionText::RichText) }
def find_signed!(signed_id, purpose: nil); end
sig { params(arg: T.untyped, args: T.untyped).returns(::ActionText::RichText) }
def find_sole_by(arg, *args); end
sig { params(limit: NilClass).returns(T.nilable(::ActionText::RichText)) }
sig { params(limit: Integer).returns(T::Array[::ActionText::RichText]) }
def first(limit = nil); end
sig { returns(::ActionText::RichText) }
def first!; end
sig { returns(T.nilable(::ActionText::RichText)) }
def forty_two; end
sig { returns(::ActionText::RichText) }
def forty_two!; end
sig { returns(T.nilable(::ActionText::RichText)) }
def fourth; end
sig { returns(::ActionText::RichText) }
def fourth!; end
sig { returns(Array) }
def ids; end
sig do
params(
of: Integer,
start: T.untyped,
finish: T.untyped,
load: T.untyped,
error_on_ignore: T.untyped,
order: Symbol,
use_ranges: T.untyped,
block: T.proc.params(object: PrivateRelation).void
).void
end
sig do
params(
of: Integer,
start: T.untyped,
finish: T.untyped,
load: T.untyped,
error_on_ignore: T.untyped,
order: Symbol,
use_ranges: T.untyped
).returns(::ActiveRecord::Batches::BatchEnumerator)
end
def in_batches(of: 1000, start: nil, finish: nil, load: false, error_on_ignore: nil, order: :asc, use_ranges: nil, &block); end
sig { params(record: T.untyped).returns(T::Boolean) }
def include?(record); end
sig { params(limit: NilClass).returns(T.nilable(::ActionText::RichText)) }
sig { params(limit: Integer).returns(T::Array[::ActionText::RichText]) }
def last(limit = nil); end
sig { returns(::ActionText::RichText) }
def last!; end
sig do
params(
block: T.nilable(T.proc.params(record: ::ActionText::RichText).returns(T.untyped))
).returns(T::Boolean)
end
def many?(&block); end
sig { params(column_name: T.any(String, Symbol)).returns(T.untyped) }
def maximum(column_name); end
sig { params(record: T.untyped).returns(T::Boolean) }
def member?(record); end
sig { params(column_name: T.any(String, Symbol)).returns(T.untyped) }
def minimum(column_name); end
sig do
params(
attributes: T.untyped,
block: T.nilable(T.proc.params(object: ::ActionText::RichText).void)
).returns(::ActionText::RichText)
end
def new(attributes = nil, &block); end
sig do
params(
block: T.nilable(T.proc.params(record: ::ActionText::RichText).returns(T.untyped))
).returns(T::Boolean)
end
def none?(&block); end
sig do
params(
block: T.nilable(T.proc.params(record: ::ActionText::RichText).returns(T.untyped))
).returns(T::Boolean)
end
def one?(&block); end
sig { params(column_names: T.untyped).returns(T.untyped) }
def pick(*column_names); end
sig { params(column_names: T.untyped).returns(T.untyped) }
def pluck(*column_names); end
sig { returns(T.nilable(::ActionText::RichText)) }
def second; end
sig { returns(::ActionText::RichText) }
def second!; end
sig { returns(T.nilable(::ActionText::RichText)) }
def second_to_last; end
sig { returns(::ActionText::RichText) }
def second_to_last!; end
sig { returns(::ActionText::RichText) }
def sole; end
sig { params(initial_value_or_column: T.untyped).returns(T.any(Integer, Float, BigDecimal)) }
sig do
type_parameters(:U)
.params(
initial_value_or_column: T.nilable(T.type_parameter(:U)),
block: T.proc.params(object: ::ActionText::RichText).returns(T.type_parameter(:U))
).returns(T.type_parameter(:U))
end
def sum(initial_value_or_column = nil, &block); end
sig { params(limit: NilClass).returns(T.nilable(::ActionText::RichText)) }
sig { params(limit: Integer).returns(T::Array[::ActionText::RichText]) }
def take(limit = nil); end
sig { returns(::ActionText::RichText) }
def take!; end
sig { returns(T.nilable(::ActionText::RichText)) }
def third; end
sig { returns(::ActionText::RichText) }
def third!; end
sig { returns(T.nilable(::ActionText::RichText)) }
def third_to_last; end
sig { returns(::ActionText::RichText) }
def third_to_last!; end
end
module GeneratedAssociationMethods
sig { returns(T::Array[T.untyped]) }
def embeds_attachment_ids; end
sig { params(ids: T::Array[T.untyped]).returns(T::Array[T.untyped]) }
def embeds_attachment_ids=(ids); end
# This method is created by ActiveRecord on the `ActionText::RichText` class because it declared `has_many :embeds_attachments`.
# 🔗 [Rails guide for `has_many` association](https://guides.rubyonrails.org/association_basics.html#the-has-many-association)
sig { returns(ActiveRecord::Associations::CollectionProxy) }
def embeds_attachments; end
sig { params(value: T::Enumerable[T.untyped]).void }
def embeds_attachments=(value); end
sig { returns(T::Array[T.untyped]) }
def embeds_blob_ids; end
sig { params(ids: T::Array[T.untyped]).returns(T::Array[T.untyped]) }
def embeds_blob_ids=(ids); end
# This method is created by ActiveRecord on the `ActionText::RichText` class because it declared `has_many :embeds_blobs, through: :embeds_attachments`.
# 🔗 [Rails guide for `has_many_through` association](https://guides.rubyonrails.org/association_basics.html#the-has-many-through-association)
sig { returns(ActiveRecord::Associations::CollectionProxy) }
def embeds_blobs; end
sig { params(value: T::Enumerable[T.untyped]).void }
def embeds_blobs=(value); end
sig { returns(T.untyped) }
def record; end
sig { params(value: T.untyped).void }
def record=(value); end
sig { returns(T.untyped) }
def reload_record; end
sig { void }
def reset_record; end
end
module GeneratedAssociationRelationMethods
sig { returns(PrivateAssociationRelation) }
def all; end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def and(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def annotate(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def create_with(*args, &blk); end
sig { params(value: T::Boolean).returns(PrivateAssociationRelation) }
def distinct(value = true); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def eager_load(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def except(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def excluding(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def extending(*args, &blk); end
sig { params(association: Symbol).returns(T::Array[T.untyped]) }
def extract_associated(association); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def from(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelationGroupChain) }
def group(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def having(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def in_order_of(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def includes(*args, &blk); end
sig do
params(
attributes: Hash,
returning: T.nilable(T.any(T::Array[Symbol], FalseClass)),
unique_by: T.nilable(T.any(T::Array[Symbol], Symbol))
).returns(ActiveRecord::Result)
end
def insert(attributes, returning: nil, unique_by: nil); end
sig do
params(
attributes: Hash,
returning: T.nilable(T.any(T::Array[Symbol], FalseClass))
).returns(ActiveRecord::Result)
end
def insert!(attributes, returning: nil); end
sig do
params(
attributes: T::Array[Hash],
returning: T.nilable(T.any(T::Array[Symbol], FalseClass)),
unique_by: T.nilable(T.any(T::Array[Symbol], Symbol))
).returns(ActiveRecord::Result)
end
def insert_all(attributes, returning: nil, unique_by: nil); end
sig do
params(
attributes: T::Array[Hash],
returning: T.nilable(T.any(T::Array[Symbol], FalseClass))
).returns(ActiveRecord::Result)
end
def insert_all!(attributes, returning: nil); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def invert_where(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def left_joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def left_outer_joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def limit(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def lock(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def merge(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def none(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def null_relation?(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def offset(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def only(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def optimizer_hints(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def or(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def order(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def preload(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def readonly(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def references(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def regroup(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def reorder(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def reselect(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def reverse_order(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def rewhere(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def select(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def strict_loading(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def structurally_compatible?(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def uniq!(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def unscope(*args, &blk); end
sig do
params(
attributes: Hash,
returning: T.nilable(T.any(T::Array[Symbol], FalseClass)),
unique_by: T.nilable(T.any(T::Array[Symbol], Symbol))
).returns(ActiveRecord::Result)
end
def upsert(attributes, returning: nil, unique_by: nil); end
sig do
params(
attributes: T::Array[Hash],
returning: T.nilable(T.any(T::Array[Symbol], FalseClass)),
unique_by: T.nilable(T.any(T::Array[Symbol], Symbol))
).returns(ActiveRecord::Result)
end
def upsert_all(attributes, returning: nil, unique_by: nil); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelationWhereChain) }
def where(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def with(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def with_attached_embeds(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateAssociationRelation) }
def without(*args, &blk); end
end
module GeneratedRelationMethods
sig { returns(PrivateRelation) }
def all; end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def and(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def annotate(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def create_with(*args, &blk); end
sig { params(value: T::Boolean).returns(PrivateRelation) }
def distinct(value = true); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def eager_load(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def except(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def excluding(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def extending(*args, &blk); end
sig { params(association: Symbol).returns(T::Array[T.untyped]) }
def extract_associated(association); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def from(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelationGroupChain) }
def group(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def having(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def in_order_of(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def includes(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def invert_where(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def left_joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def left_outer_joins(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def limit(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def lock(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def merge(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def none(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def null_relation?(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def offset(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def only(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def optimizer_hints(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def or(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def order(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def preload(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def readonly(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def references(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def regroup(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def reorder(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def reselect(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def reverse_order(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def rewhere(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def select(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def strict_loading(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def structurally_compatible?(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def uniq!(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def unscope(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelationWhereChain) }
def where(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def with(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def with_attached_embeds(*args, &blk); end
sig { params(args: T.untyped, blk: T.untyped).returns(PrivateRelation) }
def without(*args, &blk); end
end
class PrivateAssociationRelation < ::ActiveRecord::AssociationRelation
include CommonRelationMethods
include GeneratedAssociationRelationMethods
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { returns(T::Array[::ActionText::RichText]) }
def to_a; end
sig { returns(T::Array[::ActionText::RichText]) }
def to_ary; end
end
class PrivateAssociationRelationGroupChain < PrivateAssociationRelation
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)]) }
def average(column_name); end
sig do
params(
operation: Symbol,
column_name: T.any(String, Symbol)
).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)])
end
def calculate(operation, column_name); end
sig { params(column_name: T.untyped).returns(T::Hash[T.untyped, Integer]) }
def count(column_name = nil); end
sig { params(args: T.untyped, blk: T.untyped).returns(T.self_type) }
def having(*args, &blk); end
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.untyped]) }
def maximum(column_name); end
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.untyped]) }
def minimum(column_name); end
sig do
params(
column_name: T.nilable(T.any(String, Symbol)),
block: T.nilable(T.proc.params(record: T.untyped).returns(T.untyped))
).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)])
end
def sum(column_name = nil, &block); end
end
class PrivateAssociationRelationWhereChain < PrivateAssociationRelation
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { params(args: T.untyped).returns(PrivateAssociationRelation) }
def associated(*args); end
sig { params(args: T.untyped).returns(PrivateAssociationRelation) }
def missing(*args); end
sig { params(opts: T.untyped, rest: T.untyped).returns(PrivateAssociationRelation) }
def not(opts, *rest); end
end
class PrivateCollectionProxy < ::ActiveRecord::Associations::CollectionProxy
include CommonRelationMethods
include GeneratedAssociationRelationMethods
Elem = type_member { { fixed: ::ActionText::RichText } }
sig do
params(
records: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(PrivateCollectionProxy)
end
def <<(*records); end
sig do
params(
records: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(PrivateCollectionProxy)
end
def append(*records); end
sig { returns(PrivateCollectionProxy) }
def clear; end
sig do
params(
records: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(PrivateCollectionProxy)
end
def concat(*records); end
sig do
params(
records: T.any(::ActionText::RichText, Integer, String, T::Enumerable[T.any(::ActionText::RichText, Integer, String, T::Enumerable[::ActionText::RichText])])
).returns(T::Array[::ActionText::RichText])
end
def delete(*records); end
sig do
params(
records: T.any(::ActionText::RichText, Integer, String, T::Enumerable[T.any(::ActionText::RichText, Integer, String, T::Enumerable[::ActionText::RichText])])
).returns(T::Array[::ActionText::RichText])
end
def destroy(*records); end
sig { returns(T::Array[::ActionText::RichText]) }
def load_target; end
sig do
params(
records: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(PrivateCollectionProxy)
end
def prepend(*records); end
sig do
params(
records: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(PrivateCollectionProxy)
end
def push(*records); end
sig do
params(
other_array: T.any(::ActionText::RichText, T::Enumerable[T.any(::ActionText::RichText, T::Enumerable[::ActionText::RichText])])
).returns(T::Array[::ActionText::RichText])
end
def replace(other_array); end
sig { returns(PrivateAssociationRelation) }
def scope; end
sig { returns(T::Array[::ActionText::RichText]) }
def target; end
sig { returns(T::Array[::ActionText::RichText]) }
def to_a; end
sig { returns(T::Array[::ActionText::RichText]) }
def to_ary; end
end
class PrivateRelation < ::ActiveRecord::Relation
include CommonRelationMethods
include GeneratedRelationMethods
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { returns(T::Array[::ActionText::RichText]) }
def to_a; end
sig { returns(T::Array[::ActionText::RichText]) }
def to_ary; end
end
class PrivateRelationGroupChain < PrivateRelation
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)]) }
def average(column_name); end
sig do
params(
operation: Symbol,
column_name: T.any(String, Symbol)
).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)])
end
def calculate(operation, column_name); end
sig { params(column_name: T.untyped).returns(T::Hash[T.untyped, Integer]) }
def count(column_name = nil); end
sig { params(args: T.untyped, blk: T.untyped).returns(T.self_type) }
def having(*args, &blk); end
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.untyped]) }
def maximum(column_name); end
sig { params(column_name: T.any(String, Symbol)).returns(T::Hash[T.untyped, T.untyped]) }
def minimum(column_name); end
sig do
params(
column_name: T.nilable(T.any(String, Symbol)),
block: T.nilable(T.proc.params(record: T.untyped).returns(T.untyped))
).returns(T::Hash[T.untyped, T.any(Integer, Float, BigDecimal)])
end
def sum(column_name = nil, &block); end
end
class PrivateRelationWhereChain < PrivateRelation
Elem = type_member { { fixed: ::ActionText::RichText } }
sig { params(args: T.untyped).returns(PrivateRelation) }
def associated(*args); end
sig { params(args: T.untyped).returns(PrivateRelation) }
def missing(*args); end
sig { params(opts: T.untyped, rest: T.untyped).returns(PrivateRelation) }
def not(opts, *rest); end
end
end