# frozen_string_literal: true module GraphQL class Schema class Member # Shared code for Objects, Interfaces, Mutations, Subscriptions module HasFields # Add a field to this object or interface with the given definition # @see {GraphQL::Schema::Field#initialize} for method signature # @return [GraphQL::Schema::Field] def field(*args, **kwargs, &block) field_defn = field_class.from_options(*args, owner: self, **kwargs, &block) add_field(field_defn) field_defn end # @return [Hash GraphQL::Schema::Field>] Fields on this object, keyed by name, including inherited fields def fields(context = GraphQL::Query::NullContext) warden = Warden.from_context(context) is_object = self.respond_to?(:kind) && self.kind.object? # Local overrides take precedence over inherited fields visible_fields = {} for ancestor in ancestors if ancestor.respond_to?(:own_fields) && (is_object ? visible_interface_implementation?(ancestor, context, warden) : true) ancestor.own_fields.each do |field_name, fields_entry| # Choose the most local definition that passes `.visible?` -- # stop checking for fields by name once one has been found. if !visible_fields.key?(field_name) && (f = Warden.visible_entry?(:visible_field?, fields_entry, context, warden)) visible_fields[field_name] = f end end end end visible_fields end def get_field(field_name, context = GraphQL::Query::NullContext) warden = Warden.from_context(context) is_object = self.respond_to?(:kind) && self.kind.object? for ancestor in ancestors if ancestor.respond_to?(:own_fields) && (is_object ? visible_interface_implementation?(ancestor, context, warden) : true) && (f_entry = ancestor.own_fields[field_name]) && (f = Warden.visible_entry?(:visible_field?, f_entry, context, warden)) return f end end nil end # A list of Ruby keywords. # # @api private RUBY_KEYWORDS = [:class, :module, :def, :undef, :begin, :rescue, :ensure, :end, :if, :unless, :then, :elsif, :else, :case, :when, :while, :until, :for, :break, :next, :redo, :retry, :in, :do, :return, :yield, :super, :self, :nil, :true, :false, :and, :or, :not, :alias, :defined?, :BEGIN, :END, :__LINE__, :__FILE__] # A list of GraphQL-Ruby keywords. # # @api private GRAPHQL_RUBY_KEYWORDS = [:context, :object, :raw_value] # A list of field names that we should advise users to pick a different # resolve method name. # # @api private CONFLICT_FIELD_NAMES = Set.new(GRAPHQL_RUBY_KEYWORDS + RUBY_KEYWORDS + Object.instance_methods) # Register this field with the class, overriding a previous one if needed. # @param field_defn [GraphQL::Schema::Field] # @return [void] def add_field(field_defn, method_conflict_warning: field_defn.method_conflict_warning?) # Check that `field_defn.original_name` equals `resolver_method` and `method_sym` -- # that shows that no override value was given manually. if method_conflict_warning && CONFLICT_FIELD_NAMES.include?(field_defn.resolver_method) && field_defn.original_name == field_defn.resolver_method && field_defn.original_name == field_defn.method_sym warn(conflict_field_name_warning(field_defn)) end prev_defn = own_fields[field_defn.name] case prev_defn when nil own_fields[field_defn.name] = field_defn when Array prev_defn << field_defn when GraphQL::Schema::Field own_fields[field_defn.name] = [prev_defn, field_defn] else raise "Invariant: unexpected previous field definition for #{field_defn.name.inspect}: #{prev_defn.inspect}" end nil end # @return [Class] The class to initialize when adding fields to this kind of schema member def field_class(new_field_class = nil) if new_field_class @field_class = new_field_class elsif defined?(@field_class) && @field_class @field_class else find_inherited_value(:field_class, GraphQL::Schema::Field) end end def global_id_field(field_name, **kwargs) id_resolver = GraphQL::Relay::GlobalIdResolve.new(type: self) field field_name, "ID", **kwargs, null: false define_method(field_name) do id_resolver.call(object, {}, context) end end # @return [Hash GraphQL::Schema::Field, Array>] Fields defined on this class _specifically_, not parent classes def own_fields @own_fields ||= {} end def all_field_definitions all_fields = {} ancestors.reverse_each do |ancestor| if ancestor.respond_to?(:own_fields) all_fields.merge!(ancestor.own_fields) end end all_fields = all_fields.values all_fields.flatten! all_fields end private # If `type` is an interface, and `self` has a type membership for `type`, then make sure it's visible. def visible_interface_implementation?(type, context, warden) if type.respond_to?(:kind) && type.kind.interface? implements_this_interface = false implementation_is_visible = false interface_type_memberships.each do |tm| if tm.abstract_type == type implements_this_interface ||= true if warden.visible_type_membership?(tm, context) implementation_is_visible = true break end end end # It's possible this interface came by way of `include` in another interface which this # object type _does_ implement, and that's ok implements_this_interface ? implementation_is_visible : true else # If there's no implementation, then we're looking at Ruby-style inheritance instead true end end # @param [GraphQL::Schema::Field] # @return [String] A warning to give when this field definition might conflict with a built-in method def conflict_field_name_warning(field_defn) "#{self.graphql_name}'s `field :#{field_defn.original_name}` conflicts with a built-in method, use `resolver_method:` to pick a different resolver method for this field (for example, `resolver_method: :resolve_#{field_defn.resolver_method}` and `def resolve_#{field_defn.resolver_method}`). Or use `method_conflict_warning: false` to suppress this warning." end end end end end