# frozen_string_literal: true module GraphQL module Language module Nodes # {AbstractNode} is the base class for all nodes in a GraphQL AST. # # It provides some APIs for working with ASTs: # - `children` returns all AST nodes attached to this one. Used for tree traversal. # - `scalars` returns all scalar (Ruby) values attached to this one. Used for comparing nodes. # - `to_query_string` turns an AST node into a GraphQL string class AbstractNode module DefinitionNode # This AST node's {#line} returns the first line, which may be the description. # @return [Integer] The first line of the definition (not the description) attr_reader :definition_line def initialize(options = {}) @definition_line = options.delete(:definition_line) super(options) end end attr_reader :line, :col, :filename # Initialize a node by extracting its position, # then calling the class's `initialize_node` method. # @param options [Hash] Initial attributes for this node def initialize(options = {}) if options.key?(:position_source) position_source = options.delete(:position_source) @line = position_source[1] @col = position_source[2] end @filename = options.delete(:filename) initialize_node(**options) end # Value equality # @return [Boolean] True if `self` is equivalent to `other` def ==(other) return true if equal?(other) other.kind_of?(self.class) && other.scalars == self.scalars && other.children == self.children end NO_CHILDREN = [].freeze # @return [Array] all nodes in the tree below this one def children NO_CHILDREN end # @return [Array] Scalar values attached to this node def scalars NO_CHILDREN end # This might be unnecessary, but its easiest to add it here. def initialize_copy(other) @children = nil @scalars = nil @query_string = nil end def children_method_name self.class.children_method_name end def position [line, col] end def to_query_string(printer: GraphQL::Language::Printer.new) if printer.is_a?(GraphQL::Language::Printer) @query_string ||= printer.print(self) else printer.print(self) end end # This creates a copy of `self`, with `new_options` applied. # @param new_options [Hash] # @return [AbstractNode] a shallow copy of `self` def merge(new_options) dup.merge!(new_options) end # Copy `self`, but modify the copy so that `previous_child` is replaced by `new_child` def replace_child(previous_child, new_child) # Figure out which list `previous_child` may be found in method_name = previous_child.children_method_name # Get the value from this (original) node prev_children = public_send(method_name) if prev_children.is_a?(Array) # Copy that list, and replace `previous_child` with `new_child` # in the list. new_children = prev_children.dup prev_idx = new_children.index(previous_child) new_children[prev_idx] = new_child else # Use the new value for the given attribute new_children = new_child end # Copy this node, but with the new child value copy_of_self = merge(method_name => new_children) # Return the copy: copy_of_self end # TODO DRY with `replace_child` def delete_child(previous_child) # Figure out which list `previous_child` may be found in method_name = previous_child.children_method_name # Copy that list, and delete previous_child new_children = public_send(method_name).dup new_children.delete(previous_child) # Copy this node, but with the new list of children: copy_of_self = merge(method_name => new_children) # Return the copy: copy_of_self end protected def merge!(new_options) new_options.each do |key, value| instance_variable_set(:"@#{key}", value) end self end class << self # Add a default `#visit_method` and `#children_method_name` using the class name def inherited(child_class) super name_underscored = child_class.name .split("::").last .gsub(/([a-z])([A-Z])/,'\1_\2') # insert underscores .downcase # remove caps child_class.module_eval <<-RUBY, __FILE__, __LINE__ def visit_method :on_#{name_underscored} end class << self attr_accessor :children_method_name def visit_method :on_#{name_underscored} end end self.children_method_name = :#{name_underscored}s RUBY end def children_of_type @children_methods end private # Name accessors which return lists of nodes, # along with the kind of node they return, if possible. # - Add a reader for these children # - Add a persistent update method to add a child # - Generate a `#children` method def children_methods(children_of_type) if defined?(@children_methods) raise "Can't re-call .children_methods for #{self} (already have: #{@children_methods})" else @children_methods = children_of_type end if children_of_type == false @children_methods = {} # skip else children_of_type.each do |method_name, node_type| module_eval <<-RUBY, __FILE__, __LINE__ # A reader for these children attr_reader :#{method_name} RUBY if node_type # Only generate a method if we know what kind of node to make module_eval <<-RUBY, __FILE__, __LINE__ # Singular method: create a node with these options # and return a new `self` which includes that node in this list. def merge_#{method_name.to_s.sub(/s$/, "")}(node_opts) merge(#{method_name}: #{method_name} + [#{node_type.name}.new(node_opts)]) end RUBY end end if children_of_type.size == 1 module_eval <<-RUBY, __FILE__, __LINE__ alias :children #{children_of_type.keys.first} RUBY else module_eval <<-RUBY, __FILE__, __LINE__ def children @children ||= begin if #{children_of_type.keys.map { |k| "@#{k}.any?" }.join(" || ")} new_children = [] #{children_of_type.keys.map { |k| "new_children.concat(@#{k})" }.join("; ")} new_children.freeze new_children else NO_CHILDREN end end end RUBY end end if defined?(@scalar_methods) if !method_defined?(:initialize_node) generate_initialize_node else # This method was defined manually end else raise "Can't generate_initialize_node because scalar_methods wasn't called; call it before children_methods" end end # These methods return a plain Ruby value, not another node # - Add reader methods # - Add a `#scalars` method def scalar_methods(*method_names) if defined?(@scalar_methods) raise "Can't re-call .scalar_methods for #{self} (already have: #{@scalar_methods})" else @scalar_methods = method_names end if method_names == [false] @scalar_methods = [] # skip it else module_eval <<-RUBY, __FILE__, __LINE__ # add readers for each scalar attr_reader #{method_names.map { |m| ":#{m}"}.join(", ")} def scalars @scalars ||= [#{method_names.map { |k| "@#{k}" }.join(", ")}].freeze end RUBY end end def generate_initialize_node scalar_method_names = @scalar_methods # TODO: These probably should be scalar methods, but `types` returns an array [:types, :description].each do |extra_method| if method_defined?(extra_method) scalar_method_names += [extra_method] end end all_method_names = scalar_method_names + @children_methods.keys if all_method_names.include?(:alias) # Rather than complicating this special case, # let it be overridden (in field) return else arguments = scalar_method_names.map { |m| "#{m}: nil"} + @children_methods.keys.map { |m| "#{m}: NO_CHILDREN" } assignments = scalar_method_names.map { |m| "@#{m} = #{m}"} + @children_methods.keys.map { |m| "@#{m} = #{m}.freeze" } module_eval <<-RUBY, __FILE__, __LINE__ def initialize_node #{arguments.join(", ")} #{assignments.join("\n")} end RUBY end end end end # Base class for non-null type names and list type names class WrapperType < AbstractNode scalar_methods :of_type children_methods(false) end # Base class for nodes whose only value is a name (no child nodes or other scalars) class NameOnlyNode < AbstractNode scalar_methods :name children_methods(false) end # A key-value pair for a field's inputs class Argument < AbstractNode scalar_methods :name, :value children_methods(false) # @!attribute name # @return [String] the key for this argument # @!attribute value # @return [String, Float, Integer, Boolean, Array, InputObject, VariableIdentifier] The value passed for this key def children @children ||= Array(value).flatten.select { |v| v.is_a?(AbstractNode) } end end class Directive < AbstractNode scalar_methods :name children_methods(arguments: GraphQL::Language::Nodes::Argument) end class DirectiveLocation < NameOnlyNode end class DirectiveDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name, :repeatable children_methods( locations: Nodes::DirectiveLocation, arguments: Nodes::Argument, ) end # An enum value. The string is available as {#name}. class Enum < NameOnlyNode end # A null value literal. class NullValue < NameOnlyNode end # A single selection in a GraphQL query. class Field < AbstractNode NONE = [].freeze scalar_methods :name, :alias children_methods({ arguments: GraphQL::Language::Nodes::Argument, selections: GraphQL::Language::Nodes::Field, directives: GraphQL::Language::Nodes::Directive, }) # @!attribute selections # @return [Array] Selections on this object (or empty array if this is a scalar field) def initialize_node(attributes) @name = attributes[:name] @arguments = attributes[:arguments] || NONE @directives = attributes[:directives] || NONE @selections = attributes[:selections] || NONE # oops, alias is a keyword: @alias = attributes[:alias] end # Override this because default is `:fields` self.children_method_name = :selections end # A reusable fragment, defined at document-level. class FragmentDefinition < AbstractNode # @!attribute name # @return [String] the identifier for this fragment, which may be applied with `...#{name}` # @!attribute type # @return [String] the type condition for this fragment (name of type which it may apply to) def initialize_node(name: nil, type: nil, directives: [], selections: []) @name = name @type = type @directives = directives @selections = selections end scalar_methods :name, :type children_methods({ selections: GraphQL::Language::Nodes::Field, directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end # Application of a named fragment in a selection class FragmentSpread < AbstractNode scalar_methods :name children_methods(directives: GraphQL::Language::Nodes::Directive) self.children_method_name = :selections # @!attribute name # @return [String] The identifier of the fragment to apply, corresponds with {FragmentDefinition#name} end # An unnamed fragment, defined directly in the query with `... { }` class InlineFragment < AbstractNode scalar_methods :type children_methods({ selections: GraphQL::Language::Nodes::Field, directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :selections # @!attribute type # @return [String, nil] Name of the type this fragment applies to, or `nil` if this fragment applies to any type end # A collection of key-value inputs which may be a field argument class InputObject < AbstractNode scalar_methods(false) children_methods(arguments: GraphQL::Language::Nodes::Argument) # @!attribute arguments # @return [Array] A list of key-value pairs inside this input object # @return [Hash] Recursively turn this input object into a Ruby Hash def to_h(options={}) arguments.inject({}) do |memo, pair| v = pair.value memo[pair.name] = serialize_value_for_hash v memo end end self.children_method_name = :value private def serialize_value_for_hash(value) case value when InputObject value.to_h when Array value.map do |v| serialize_value_for_hash v end when Enum value.name when NullValue nil else value end end end # A list type definition, denoted with `[...]` (used for variable type definitions) class ListType < WrapperType end # A non-null type definition, denoted with `...!` (used for variable type definitions) class NonNullType < WrapperType end # An operation-level query variable class VariableDefinition < AbstractNode scalar_methods :name, :type, :default_value children_methods false # @!attribute default_value # @return [String, Integer, Float, Boolean, Array, NullValue] A Ruby value to use if no other value is provided # @!attribute type # @return [TypeName, NonNullType, ListType] The expected type of this value # @!attribute name # @return [String] The identifier for this variable, _without_ `$` self.children_method_name = :variables end # A query, mutation or subscription. # May be anonymous or named. # May be explicitly typed (eg `mutation { ... }`) or implicitly a query (eg `{ ... }`). class OperationDefinition < AbstractNode scalar_methods :operation_type, :name children_methods({ variables: GraphQL::Language::Nodes::VariableDefinition, selections: GraphQL::Language::Nodes::Field, directives: GraphQL::Language::Nodes::Directive, }) # @!attribute variables # @return [Array] Variable $definitions for this operation # @!attribute selections # @return [Array] Root-level fields on this operation # @!attribute operation_type # @return [String, nil] The root type for this operation, or `nil` for implicit `"query"` # @!attribute name # @return [String, nil] The name for this operation, or `nil` if unnamed self.children_method_name = :definitions end # This is the AST root for normal queries # # @example Deriving a document by parsing a string # document = GraphQL.parse(query_string) # # @example Creating a string from a document # document.to_query_string # # { ... } # # @example Creating a custom string from a document # class VariableScrubber < GraphQL::Language::Printer # def print_argument(arg) # "#{arg.name}: " # end # end # # document.to_query_string(printer: VariableScrubber.new) # class Document < AbstractNode scalar_methods false children_methods(definitions: nil) # @!attribute definitions # @return [Array] top-level GraphQL units: operations or fragments def slice_definition(name) GraphQL::Language::DefinitionSlice.slice(self, name) end end # A type name, used for variable definitions class TypeName < NameOnlyNode end # Usage of a variable in a query. Name does _not_ include `$`. class VariableIdentifier < NameOnlyNode self.children_method_name = :value end class SchemaDefinition < AbstractNode include DefinitionNode scalar_methods :query, :mutation, :subscription children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class SchemaExtension < AbstractNode scalar_methods :query, :mutation, :subscription children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class ScalarTypeDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class ScalarTypeExtension < AbstractNode scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class InputValueDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name, :type, :default_value children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :fields end class FieldDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name, :type children_methods({ directives: GraphQL::Language::Nodes::Directive, arguments: GraphQL::Language::Nodes::InputValueDefinition, }) self.children_method_name = :fields # this is so that `children_method_name` of `InputValueDefinition` works properly # with `#replace_child` alias :fields :arguments def merge(new_options) if (f = new_options.delete(:fields)) new_options[:arguments] = f end super end end class ObjectTypeDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name, :interfaces children_methods({ directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::FieldDefinition, }) self.children_method_name = :definitions end class ObjectTypeExtension < AbstractNode scalar_methods :name, :interfaces children_methods({ directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::FieldDefinition, }) self.children_method_name = :definitions end class InterfaceTypeDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name children_methods({ interfaces: GraphQL::Language::Nodes::TypeName, directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::FieldDefinition, }) self.children_method_name = :definitions end class InterfaceTypeExtension < AbstractNode scalar_methods :name children_methods({ interfaces: GraphQL::Language::Nodes::TypeName, directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::FieldDefinition, }) self.children_method_name = :definitions end class UnionTypeDefinition < AbstractNode include DefinitionNode attr_reader :description, :types scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class UnionTypeExtension < AbstractNode attr_reader :types scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :definitions end class EnumValueDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, }) self.children_method_name = :values end class EnumTypeDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, values: GraphQL::Language::Nodes::EnumValueDefinition, }) self.children_method_name = :definitions end class EnumTypeExtension < AbstractNode scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, values: GraphQL::Language::Nodes::EnumValueDefinition, }) self.children_method_name = :definitions end class InputObjectTypeDefinition < AbstractNode include DefinitionNode attr_reader :description scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::InputValueDefinition, }) self.children_method_name = :definitions end class InputObjectTypeExtension < AbstractNode scalar_methods :name children_methods({ directives: GraphQL::Language::Nodes::Directive, fields: GraphQL::Language::Nodes::InputValueDefinition, }) self.children_method_name = :definitions end end end end