# frozen_string_literal: true # test_via: ../object.rb module GraphQL class Schema class Field include GraphQL::Schema::Member::CachedGraphQLDefinition include GraphQL::Schema::Member::AcceptsDefinition include GraphQL::Schema::Member::HasArguments # @return [String] the GraphQL name for this field, camelized unless `camelize: false` is provided attr_accessor :name # @return [String] attr_accessor :description # @return [Symbol] Method or hash key to look up attr_reader :method_sym # @return [String] Method or hash key to look up attr_reader :method_str # @return [Class] The type that this field belongs to attr_reader :owner # @return [Class, nil] The {Schema::Resolver} this field was derived from, if there is one def resolver @resolver_class end alias :mutation :resolver # Create a field instance from a list of arguments, keyword arguments, and a block. # # This method implements prioritization between the `resolver` or `mutation` defaults # and the local overrides via other keywords. # # It also normalizes positional arguments into keywords for {Schema::Field#initialize}. # @param resolver [Class] A {GraphQL::Schema::Resolver} class to use for field configuration # @param mutation [Class] A {GraphQL::Schema::Mutation} class to use for field configuration # @return [GraphQL::Schema:Field] an instance of `self # @see {.initialize} for other options def self.from_options(name = nil, type = nil, desc = nil, resolver: nil, mutation: nil, **kwargs, &block) if (parent_config = resolver || mutation) # Get the parent config, merge in local overrides kwargs = parent_config.field_options.merge(kwargs) # Add a reference to that parent class kwargs[:resolver_class] = parent_config end if name kwargs[:name] = name end if !type.nil? if type.is_a?(GraphQL::Field) raise ArgumentError, "A GraphQL::Field was passed as the second argument, use the `field:` keyword for this instead." end if desc if kwargs[:description] raise ArgumentError, "Provide description as a positional argument or `description:` keyword, but not both (#{desc.inspect}, #{kwargs[:description].inspect})" end kwargs[:description] = desc kwargs[:type] = type elsif (kwargs[:field] || kwargs[:function] || resolver || mutation) && type.is_a?(String) # The return type should be copied from `field` or `function`, and the second positional argument is the description kwargs[:description] = type else kwargs[:type] = type end end new(**kwargs, &block) end # @param name [Symbol] The underscore-cased version of this field name (will be camelized for the GraphQL API) # @param return_type_expr [Class, GraphQL::BaseType, Array] The return type of this field # @param desc [String] Field description # @param owner [Class] The type that this field belongs to # @param null [Boolean] `true` if this field may return `null`, `false` if it is never `null` # @param description [String] Field description # @param deprecation_reason [String] If present, the field is marked "deprecated" with this message # @param method [Symbol] The method to call to resolve this field (defaults to `name`) # @param hash_key [Object] The hash key to lookup to resolve this field (defaults to `name` or `name.to_s`) # @param connection [Boolean] `true` if this field should get automagic connection behavior; default is to infer by `*Connection` in the return type name # @param max_page_size [Integer] For connections, the maximum number of items to return from this field # @param introspection [Boolean] If true, this field will be marked as `#introspection?` and the name may begin with `__` # @param resolve [<#call(obj, args, ctx)>] **deprecated** for compatibility with <1.8.0 # @param field [GraphQL::Field, GraphQL::Schema::Field] **deprecated** for compatibility with <1.8.0 # @param function [GraphQL::Function] **deprecated** for compatibility with <1.8.0 # @param resolver_class [Class] (Private) A {Schema::Resolver} which this field was derived from. Use `resolver:` to create a field with a resolver. # @param arguments [{String=>GraphQL::Schema::Argument, Hash}] Arguments for this field (may be added in the block, also) # @param camelize [Boolean] If true, the field name will be camelized when building the schema # @param complexity [Numeric] When provided, set the complexity for this field # @param subscription_scope [Symbol, String] A key in `context` which will be used to scope subscription payloads def initialize(type: nil, name: nil, owner: nil, null: nil, field: nil, function: nil, description: nil, deprecation_reason: nil, method: nil, connection: nil, max_page_size: nil, resolve: nil, introspection: false, hash_key: nil, camelize: true, complexity: 1, extras: [], resolver_class: nil, subscription_scope: nil, arguments: {}, &definition_block) if name.nil? raise ArgumentError, "missing first `name` argument or keyword `name:`" end if !(field || function || mutation || resolver) if type.nil? raise ArgumentError, "missing second `type` argument or keyword `type:`" end if null.nil? raise ArgumentError, "missing keyword argument null:" end end if (field || function || resolve || mutation) && extras.any? raise ArgumentError, "keyword `extras:` may only be used with method-based resolve, please remove `field:`, `function:`, `resolve:`, or `mutation:`" end @name = camelize ? Member::BuildType.camelize(name.to_s) : name.to_s @description = description if field.is_a?(GraphQL::Schema::Field) @field_instance = field else @field = field end @function = function @resolve = resolve @deprecation_reason = deprecation_reason if method && hash_key raise ArgumentError, "Provide `method:` _or_ `hash_key:`, not both. (called with: `method: #{method.inspect}, hash_key: #{hash_key.inspect}`)" end # TODO: I think non-string/symbol hash keys are wrongly normalized (eg `1` will not work) method_name = method || hash_key || Member::BuildType.underscore(name.to_s) @method_str = method_name.to_s @method_sym = method_name.to_sym @complexity = complexity @return_type_expr = type @return_type_null = null @connection = connection @max_page_size = max_page_size @introspection = introspection @extras = extras @resolver_class = resolver_class # Override the default from HasArguments @own_arguments = {} arguments.each do |name, arg| if arg.is_a?(Hash) argument(name: name, **arg) else @own_arguments[name] = arg end end @owner = owner @subscription_scope = subscription_scope if definition_block instance_eval(&definition_block) end end def description(text = nil) if text @description = text else @description end end def complexity(new_complexity) case new_complexity when Proc if new_complexity.parameters.size != 3 fail( "A complexity proc should always accept 3 parameters: ctx, args, child_complexity. "\ "E.g.: complexity ->(ctx, args, child_complexity) { child_complexity * args[:limit] }" ) else @complexity = new_complexity end when Numeric @complexity = new_complexity else raise("Invalid complexity: #{new_complexity.inspect} on #{@name}") end end # @return [GraphQL::Field] def to_graphql # this field was previously defined and passed here, so delegate to it if @field_instance return @field_instance.to_graphql end field_defn = if @field @field.dup elsif @function GraphQL::Function.build_field(@function) else GraphQL::Field.new end field_defn.name = @name if @return_type_expr field_defn.type = -> { type } end if @connection.nil? # Provide default based on type name return_type_name = if @field || @function Member::BuildType.to_type_name(field_defn.type) elsif @return_type_expr Member::BuildType.to_type_name(@return_type_expr) else raise "No connection info possible" end @connection = return_type_name.end_with?("Connection") end if @description field_defn.description = @description end if @deprecation_reason field_defn.deprecation_reason = @deprecation_reason end if @resolver_class if @resolver_class < GraphQL::Schema::Mutation field_defn.mutation = @resolver_class end field_defn.metadata[:resolver] = @resolver_class end field_defn.resolve = self.method(:resolve_field) field_defn.connection = @connection field_defn.connection_max_page_size = @max_page_size field_defn.introspection = @introspection field_defn.complexity = @complexity field_defn.subscription_scope = @subscription_scope # apply this first, so it can be overriden below if @connection # TODO: this could be a bit weird, because these fields won't be present # after initialization, only in the `to_graphql` response. # This calculation _could_ be moved up if need be. argument :after, "String", "Returns the elements in the list that come after the specified global ID.", required: false argument :before, "String", "Returns the elements in the list that come before the specified global ID.", required: false argument :first, "Int", "Returns the first _n_ elements from the list.", required: false argument :last, "Int", "Returns the last _n_ elements from the list.", required: false end arguments.each do |name, defn| arg_graphql = defn.to_graphql field_defn.arguments[arg_graphql.name] = arg_graphql end # Support a passed-in proc, one way or another @resolve_proc = if @resolve @resolve elsif @function @function elsif @field @field.resolve_proc end # Ok, `self` isn't a class, but this is for consistency with the classes field_defn.metadata[:type_class] = self field_defn end def type @type ||= Member::BuildType.parse_type(@return_type_expr, null: @return_type_null) rescue raise ArgumentError, "Failed to build return type for #{@owner.graphql_name}.#{name} from #{@return_type_expr.inspect}: #{$!.message}", $!.backtrace end # Implement {GraphQL::Field}'s resolve API. # # Eventually, we might hook up field instances to execution in another way. TBD. def resolve_field(obj, args, ctx) if @resolve_proc # Might be nil, still want to call the func in that case inner_obj = obj && obj.object @resolve_proc.call(inner_obj, args, ctx) elsif @resolver_class inner_obj = obj && obj.object singleton_inst = @resolver_class.new(object: inner_obj, context: ctx.query.context) public_send_field(singleton_inst, args, ctx) else public_send_field(obj, args, ctx) end end # Find a way to resolve this field, checking: # # - Hash keys, if the wrapped object is a hash; # - A method on the wrapped object; # - Or, raise not implemented. # # This can be overridden by defining a method on the object type. # @param obj [GraphQL::Schema::Object] # @param ruby_kwargs [Hash Object>] # @param ctx [GraphQL::Query::Context] def resolve_field_method(obj, ruby_kwargs, ctx) if obj.object.is_a?(Hash) inner_object = obj.object if inner_object.key?(@method_sym) inner_object[@method_sym] else inner_object[@method_str] end elsif obj.object.respond_to?(@method_sym) if ruby_kwargs.any? obj.object.public_send(@method_sym, **ruby_kwargs) else obj.object.public_send(@method_sym) end else raise <<-ERR Failed to implement #{@owner.graphql_name}.#{@name}, tried: - `#{obj.class}##{@method_sym}`, which did not exist - `#{obj.object.class}##{@method_sym}`, which did not exist - Looking up hash key `#{@method_sym.inspect}` or `#{@method_str.inspect}` on `#{obj.object}`, but it wasn't a Hash To implement this field, define one of the methods above (and check for typos) ERR end end private NO_ARGS = {}.freeze def public_send_field(obj, graphql_args, field_ctx) if graphql_args.any? || @extras.any? # Splat the GraphQL::Arguments to Ruby keyword arguments ruby_kwargs = graphql_args.to_kwargs # Apply any `prepare` methods. Not great code organization, can this go somewhere better? arguments.each do |name, arg_defn| ruby_kwargs_key = arg_defn.keyword if ruby_kwargs.key?(ruby_kwargs_key) && arg_defn.prepare ruby_kwargs[ruby_kwargs_key] = arg_defn.prepare_value(obj, ruby_kwargs[ruby_kwargs_key]) end end if @connection # Remove pagination args before passing it to a user method ruby_kwargs.delete(:first) ruby_kwargs.delete(:last) ruby_kwargs.delete(:before) ruby_kwargs.delete(:after) end @extras.each do |extra_arg| # TODO: provide proper tests for `:ast_node`, `:irep_node`, `:parent`, others? ruby_kwargs[extra_arg] = field_ctx.public_send(extra_arg) end else ruby_kwargs = NO_ARGS end if ruby_kwargs.any? obj.public_send(@method_sym, **ruby_kwargs) else obj.public_send(@method_sym) end end end end end