# frozen_string_literal: true module GraphQL module Execution # Lookahead creates a uniform interface to inspect the forthcoming selections. # # It assumes that the AST it's working with is valid. (So, it's safe to use # during execution, but if you're using it directly, be sure to validate first.) # # A field may get access to its lookahead by adding `extras: [:lookahead]` # to its configuration. # # @example looking ahead in a field # field :articles, [Types::Article], null: false, # extras: [:lookahead] # # # For example, imagine a faster database call # # may be issued when only some fields are requested. # # # # Imagine that _full_ fetch must be made to satisfy `fullContent`, # # we can look ahead to see if we need that field. If we do, # # we make the expensive database call instead of the cheap one. # def articles(lookahead:) # if lookahead.selects?(:full_content) # fetch_full_articles(object) # else # fetch_preview_articles(object) # end # end class Lookahead # @param query [GraphQL::Query] # @param ast_nodes [Array, Array] # @param field [GraphQL::Schema::Field] if `ast_nodes` are fields, this is the field definition matching those nodes # @param root_type [Class] if `ast_nodes` are operation definition, this is the root type for that operation def initialize(query:, ast_nodes:, field: nil, root_type: nil, owner_type: nil) @ast_nodes = ast_nodes.freeze @field = field @root_type = root_type @query = query @selected_type = @field ? @field.type.unwrap : root_type @owner_type = owner_type end # @return [Array] attr_reader :ast_nodes # @return [GraphQL::Schema::Field] attr_reader :field # @return [GraphQL::Schema::Object, GraphQL::Schema::Union, GraphQL::Schema::Interface] attr_reader :owner_type # @return [Hash] def arguments if defined?(@arguments) @arguments else @arguments = if @field @query.schema.after_lazy(@query.arguments_for(@ast_nodes.first, @field)) do |args| args.is_a?(Execution::Interpreter::Arguments) ? args.keyword_arguments : args end else nil end end end # True if this node has a selection on `field_name`. # If `field_name` is a String, it is treated as a GraphQL-style (camelized) # field name and used verbatim. If `field_name` is a Symbol, it is # treated as a Ruby-style (underscored) name and camelized before comparing. # # If `arguments:` is provided, each provided key/value will be matched # against the arguments in the next selection. This method will return false # if any of the given `arguments:` are not present and matching in the next selection. # (But, the next selection may contain _more_ than the given arguments.) # @param field_name [String, Symbol] # @param arguments [Hash] Arguments which must match in the selection # @return [Boolean] def selects?(field_name, arguments: nil) selection(field_name, arguments: arguments).selected? end # @return [Boolean] True if this lookahead represents a field that was requested def selected? true end # Like {#selects?}, but can be used for chaining. # It returns a null object (check with {#selected?}) # @return [GraphQL::Execution::Lookahead] def selection(field_name, selected_type: @selected_type, arguments: nil) next_field_name = normalize_name(field_name) next_field_defn = @query.get_field(selected_type, next_field_name) if next_field_defn next_nodes = [] @ast_nodes.each do |ast_node| ast_node.selections.each do |selection| find_selected_nodes(selection, next_field_name, next_field_defn, arguments: arguments, matches: next_nodes) end end if next_nodes.any? Lookahead.new(query: @query, ast_nodes: next_nodes, field: next_field_defn, owner_type: selected_type) else NULL_LOOKAHEAD end else NULL_LOOKAHEAD end end # Like {#selection}, but for all nodes. # It returns a list of Lookaheads for all Selections # # If `arguments:` is provided, each provided key/value will be matched # against the arguments in each selection. This method will filter the selections # if any of the given `arguments:` do not match the given selection. # # @example getting the name of a selection # def articles(lookahead:) # next_lookaheads = lookahead.selections # => [#, ...] # next_lookaheads.map(&:name) #=> [:full_content, :title] # end # # @param arguments [Hash] Arguments which must match in the selection # @return [Array] def selections(arguments: nil) subselections_by_type = {} subselections_on_type = subselections_by_type[@selected_type] = {} @ast_nodes.each do |node| find_selections(subselections_by_type, subselections_on_type, @selected_type, node.selections, arguments) end subselections = [] subselections_by_type.each do |type, ast_nodes_by_response_key| ast_nodes_by_response_key.each do |response_key, ast_nodes| field_defn = @query.get_field(type, ast_nodes.first.name) lookahead = Lookahead.new(query: @query, ast_nodes: ast_nodes, field: field_defn, owner_type: type) subselections.push(lookahead) end end subselections end # The method name of the field. # It returns the method_sym of the Lookahead's field. # # @example getting the name of a selection # def articles(lookahead:) # article.selection(:full_content).name # => :full_content # # ... # end # # @return [Symbol] def name @field && @field.original_name end def inspect "#" end # This is returned for {Lookahead#selection} when a non-existent field is passed class NullLookahead < Lookahead # No inputs required here. def initialize end def selected? false end def selects?(*) false end def selection(*) NULL_LOOKAHEAD end def selections(*) [] end def inspect "#" end end # A singleton, so that misses don't come with overhead. NULL_LOOKAHEAD = NullLookahead.new private # If it's a symbol, stringify and camelize it def normalize_name(name) if name.is_a?(Symbol) Schema::Member::BuildType.camelize(name.to_s) else name end end def normalize_keyword(keyword) if keyword.is_a?(String) Schema::Member::BuildType.underscore(keyword).to_sym else keyword end end def skipped_by_directive?(ast_selection) ast_selection.directives.each do |directive| dir_defn = @query.schema.directives.fetch(directive.name) directive_class = dir_defn if directive_class dir_args = @query.arguments_for(directive, dir_defn) return true unless directive_class.static_include?(dir_args, @query.context) end end false end def find_selections(subselections_by_type, selections_on_type, selected_type, ast_selections, arguments) ast_selections.each do |ast_selection| next if skipped_by_directive?(ast_selection) case ast_selection when GraphQL::Language::Nodes::Field response_key = ast_selection.alias || ast_selection.name if selections_on_type.key?(response_key) selections_on_type[response_key] << ast_selection elsif arguments.nil? || arguments.empty? selections_on_type[response_key] = [ast_selection] else field_defn = @query.get_field(selected_type, ast_selection.name) if arguments_match?(arguments, field_defn, ast_selection) selections_on_type[response_key] = [ast_selection] end end when GraphQL::Language::Nodes::InlineFragment on_type = selected_type subselections_on_type = selections_on_type if (t = ast_selection.type) # Assuming this is valid, that `t` will be found. on_type = @query.get_type(t.name) subselections_on_type = subselections_by_type[on_type] ||= {} end find_selections(subselections_by_type, subselections_on_type, on_type, ast_selection.selections, arguments) when GraphQL::Language::Nodes::FragmentSpread frag_defn = @query.fragments[ast_selection.name] || raise("Invariant: Can't look ahead to nonexistent fragment #{ast_selection.name} (found: #{@query.fragments.keys})") # Again, assuming a valid AST on_type = @query.get_type(frag_defn.type.name) subselections_on_type = subselections_by_type[on_type] ||= {} find_selections(subselections_by_type, subselections_on_type, on_type, frag_defn.selections, arguments) else raise "Invariant: Unexpected selection type: #{ast_selection.class}" end end end # If a selection on `node` matches `field_name` (which is backed by `field_defn`) # and matches the `arguments:` constraints, then add that node to `matches` def find_selected_nodes(node, field_name, field_defn, arguments:, matches:) return if skipped_by_directive?(node) case node when GraphQL::Language::Nodes::Field if node.name == field_name if arguments.nil? || arguments.empty? # No constraint applied matches << node elsif arguments_match?(arguments, field_defn, node) matches << node end end when GraphQL::Language::Nodes::InlineFragment node.selections.each { |s| find_selected_nodes(s, field_name, field_defn, arguments: arguments, matches: matches) } when GraphQL::Language::Nodes::FragmentSpread frag_defn = @query.fragments[node.name] || raise("Invariant: Can't look ahead to nonexistent fragment #{node.name} (found: #{@query.fragments.keys})") frag_defn.selections.each { |s| find_selected_nodes(s, field_name, field_defn, arguments: arguments, matches: matches) } else raise "Unexpected selection comparison on #{node.class.name} (#{node})" end end def arguments_match?(arguments, field_defn, field_node) query_kwargs = @query.arguments_for(field_node, field_defn) arguments.all? do |arg_name, arg_value| arg_name = normalize_keyword(arg_name) # Make sure the constraint is present with a matching value query_kwargs.key?(arg_name) && query_kwargs[arg_name] == arg_value end end end end end