require 'set' require 'dry/core/inflector' require 'rom/constants' require 'rom/relation/name' require 'rom/relation/view_dsl' require 'rom/schema' require 'rom/support/notifications' module ROM class Relation # @api public module ClassInterface extend Notifications::Listener subscribe('configuration.relations.object.registered') do |event| relation = event[:relation] registry = event[:registry] schemas = relation.schemas.reduce({}) do |h, (a, e)| h.update(a => e.is_a?(Proc) ? relation.class.instance_exec(registry, &e) : e) end relation.schemas.update(schemas) relation end DEFAULT_DATASET_PROC = -> * { self }.freeze # Return adapter-specific relation subclass # # @example # ROM::Relation[:memory] # # => ROM::Memory::Relation # # @return [Class] # # @api public def [](adapter) ROM.adapters.fetch(adapter).const_get(:Relation) rescue KeyError raise AdapterNotPresentError.new(adapter, :relation) end # Set or get custom dataset block # # This block will be evaluated when a relation is instantiated and registered # in a relation registry. # # @example # class Users < ROM::Relation[:memory] # dataset { sort_by(:id) } # end # # @api public def dataset(&block) if defined?(@dataset) @dataset else @dataset = block || DEFAULT_DATASET_PROC end end # Specify canonical schema for a relation # # With a schema defined commands will set up a type-safe input handler # automatically # # @example # class Users < ROM::Relation[:sql] # schema do # attribute :id, Types::Serial # attribute :name, Types::String # end # end # # # access schema # Users.schema # # @return [Schema] # # @param [Symbol] dataset An optional dataset name # @param [Boolean] infer Whether to do an automatic schema inferring # # @api public def schema(dataset = nil, as: nil, infer: false, &block) if defined?(@schema) && !block && !infer @schema elsif block || infer raise MissingSchemaClassError.new(self) unless schema_class ds_name = dataset || schema_opts.fetch(:dataset, default_name.dataset) relation = as || schema_opts.fetch(:relation, ds_name) @relation_name = Name[relation, ds_name] dsl = schema_dsl.new( relation_name, schema_class: schema_class, attr_class: schema_attr_class, inferrer: schema_inferrer.with(enabled: infer), &block ) @schema_proc = dsl.method(:call).to_proc end end # @api private def set_schema!(schema) @schema = schema end # @api private attr_reader :schema_proc # !@attribute [r] relation_name # @return [Name] Qualified relation name def relation_name raise MissingSchemaError.new(self) unless defined?(@relation_name) @relation_name end # Define a relation view with a specific schema # # Explicit relation views allow relation composition with auto-mapping # in repositories. It's useful for cases like defining custom views # for associations where relations (even from different databases) can # be composed together and automatically mapped in memory to structs. # # @overload view(name, schema, &block) # @example View with the canonical schema # class Users < ROM::Relation[:sql] # view(:listing, schema) do # order(:name) # end # end # # @example View with a projected schema # class Users < ROM::Relation[:sql] # view(:listing, schema.project(:id, :name)) do # order(:name) # end # end # # @overload view(name, &block) # @example View with the canonical schema and arguments # class Users < ROM::Relation[:sql] # view(:by_name) do |name| # where(name: name) # end # end # # @example View with projected schema and arguments # class Users < ROM::Relation[:sql] # view(:by_name) do # schema { project(:id, :name) } # relation { |name| where(name: name) } # end # end # # @example View with a schema extended with foreign attributes # class Users < ROM::Relation[:sql] # view(:index) do # schema { append(relations[:tasks][:title]) } # relation { |name| where(name: name) } # end # end # # @return [Symbol] view method name # # @api public def view(*args, &block) if args.size == 1 && block.arity > 0 raise ArgumentError, "header must be set as second argument" end name, new_schema_fn, relation_block = if args.size == 1 ViewDSL.new(*args, schema, &block).call else [*args, block] end schemas[name] = if args.size == 2 -> _ { schema.project(*args[1]) } else new_schema_fn end if relation_block.arity > 0 auto_curry_guard do define_method(name, &relation_block) auto_curry(name) do schemas[name].(self) end end else define_method(name) do schemas[name].(instance_exec(&relation_block)) end end name end # Dynamically define a method that will forward to the dataset and wrap # response in the relation itself # # @example # class SomeAdapterRelation < ROM::Relation # forward :super_query # end # # @api public def forward(*methods) methods.each do |method| class_eval <<-RUBY, __FILE__, __LINE__ + 1 def #{method}(*args, &block) new(dataset.__send__(:#{method}, *args, &block)) end RUBY end end # Include a registered plugin in this relation class # # @param [Symbol] plugin # @param [Hash] options # @option options [Symbol] :adapter (:default) first adapter to check for plugin # # @api public def use(plugin, options = EMPTY_HASH) ROM.plugin_registry.relations.fetch(plugin, adapter).apply_to(self, options) end # @api private def curried Curried end # @api private def view_methods ancestor_methods = ancestors.reject { |klass| klass == self } .map(&:instance_methods).flatten(1) instance_methods - ancestor_methods + auto_curried_methods end # @api private def schemas @schemas ||= {} end # Return default relation name used in schemas # # @return [Name] # # @api private def default_name Name[Dry::Core::Inflector.underscore(name).tr('/', '_').to_sym] end # @api private def default_schema(klass = self) klass.schema || if klass.schema_proc klass.set_schema!(klass.schema_proc.call) else klass.schema_class.define(klass.default_name) end end def name super || superclass.name end end end end