# frozen_string_literal: true module RBS module Types module NoFreeVariables def free_variables(set = Set.new) set end end module NoSubst def sub(s) self end end module NoTypeName def map_type_name self end end module EmptyEachType def each_type if block_given? # nop else enum_for :each_type end end def map_type(&block) if block _ = self else enum_for(:map_type) end end end module Bases class Base attr_reader :location def initialize(location:) @location = location end def ==(other) other.is_a?(self.class) end def hash self.class.hash end alias eql? == include NoFreeVariables include NoSubst include EmptyEachType include NoTypeName def to_json(state = _ = nil) klass = to_s.to_sym { class: klass, location: location }.to_json(state) end def to_s(level = 0) case self when Types::Bases::Bool 'bool' when Types::Bases::Void 'void' when Types::Bases::Any raise when Types::Bases::Nil 'nil' when Types::Bases::Top 'top' when Types::Bases::Bottom 'bot' when Types::Bases::Self 'self' when Types::Bases::Instance 'instance' when Types::Bases::Class 'class' else raise "Unexpected base type: #{inspect}" end end def has_self_type? self.is_a?(Types::Bases::Self) end def has_classish_type? self.is_a?(Bases::Instance) || self.is_a?(Bases::Class) end def with_nonreturn_void? self.is_a?(Bases::Void) end end class Bool < Base; end class Void < Base; end class Any < Base def to_s(level=0) @string || "untyped" end def todo! @string = '__todo__' self end end class Nil < Base; end class Top < Base; end class Bottom < Base; end class Self < Base; end class Instance < Base def sub(s) s.apply(self) end end class Class < Base; end end class Variable attr_reader :name attr_reader :location include NoTypeName def initialize(name:, location:) @name = name @location = location end def ==(other) other.is_a?(Variable) && other.name == name end alias eql? == def hash self.class.hash ^ name.hash end def free_variables(set = Set.new) set.tap do set << name end end def to_json(state = _ = nil) { class: :variable, name: name, location: location }.to_json(state) end def sub(s) s.apply(self) end def self.build(v) case v when Symbol new(name: v, location: nil) when Array v.map {|x| new(name: x, location: nil) } end end @@count = 0 def self.fresh(v = :T) @@count = @@count + 1 new(name: :"#{v}@#{@@count}", location: nil) end def to_s(level = 0) name.to_s end include EmptyEachType def has_self_type? false end def has_classish_type? false end def with_nonreturn_void? false end end class ClassSingleton attr_reader :name attr_reader :location def initialize(name:, location:) @name = name @location = location end def ==(other) other.is_a?(ClassSingleton) && other.name == name end alias eql? == def hash self.class.hash ^ name.hash end include NoFreeVariables include NoSubst def to_json(state = _ = nil) { class: :class_singleton, name: name, location: location }.to_json(state) end def to_s(level = 0) "singleton(#{name})" end include EmptyEachType def map_type_name ClassSingleton.new( name: yield(name, location, self), location: location ) end def has_self_type? false end def has_classish_type? false end def with_nonreturn_void? false end end module Application attr_reader :name attr_reader :args def ==(other) other.is_a?(self.class) && other.name == name && other.args == args end alias eql? == def hash name.hash ^ args.hash end def free_variables(set = Set.new) set.tap do args.each do |arg| arg.free_variables(set) end end end def to_s(level = 0) if args.empty? name.to_s else "#{name}[#{args.join(", ")}]" end end def each_type(&block) if block args.each(&block) else enum_for :each_type end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? do |type| if type.is_a?(Bases::Void) # `void` in immediate generics parameter is allowed false else type.with_nonreturn_void? end end end end class Interface attr_reader :location include Application def initialize(name:, args:, location:) @name = name @args = args @location = location end def to_json(state = _ = nil) { class: :interface, name: name, args: args, location: location }.to_json(state) end def sub(s) self.class.new(name: name, args: args.map {|ty| ty.sub(s) }, location: location) end def map_type_name(&block) Interface.new( name: yield(name, location, self), args: args.map {|type| type.map_type_name(&block) }, location: location ) end def map_type(&block) if block Interface.new( name: name, args: args.map {|type| yield type }, location: location ) else enum_for(:map_type) end end end class ClassInstance attr_reader :location include Application def initialize(name:, args:, location:) @name = name @args = args @location = location end def to_json(state = _ = nil) { class: :class_instance, name: name, args: args, location: location }.to_json(state) end def sub(s) self.class.new(name: name, args: args.map {|ty| ty.sub(s) }, location: location) end def map_type_name(&block) ClassInstance.new( name: yield(name, location, self), args: args.map {|type| type.map_type_name(&block) }, location: location ) end def map_type(&block) if block ClassInstance.new( name: name, args: args.map {|type| yield type }, location: location ) else enum_for :map_type end end end class Alias attr_reader :location include Application def initialize(name:, args:, location:) @name = name @args = args @location = location end def to_json(state = _ = nil) { class: :alias, name: name, args: args, location: location }.to_json(state) end def sub(s) Alias.new(name: name, args: args.map {|ty| ty.sub(s) }, location: location) end def map_type_name(&block) Alias.new( name: yield(name, location, self), args: args.map {|arg| arg.map_type_name(&block) }, location: location ) end def map_type(&block) if block Alias.new( name: name, args: args.map {|type| yield type }, location: location ) else enum_for :map_type end end end class Tuple attr_reader :types attr_reader :location def initialize(types:, location:) @types = types @location = location end def ==(other) other.is_a?(Tuple) && other.types == types end alias eql? == def hash self.class.hash ^ types.hash end def free_variables(set = Set.new) set.tap do types.each do |type| type.free_variables set end end end def to_json(state = _ = nil) { class: :tuple, types: types, location: location }.to_json(state) end def sub(s) self.class.new(types: types.map {|ty| ty.sub(s) }, location: location) end def to_s(level = 0) if types.empty? "[ ]" else "[ #{types.join(", ")} ]" end end def each_type(&block) if block types.each(&block) else enum_for :each_type end end def map_type_name(&block) Tuple.new( types: types.map {|type| type.map_type_name(&block) }, location: location ) end def map_type(&block) if block Tuple.new( types: types.map {|type| yield type }, location: location ) else enum_for :map_type end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? {|type| type.with_nonreturn_void? } end end class Record attr_reader :fields attr_reader :location def initialize(fields:, location:) @fields = fields @location = location end def ==(other) other.is_a?(Record) && other.fields == fields end alias eql? == def hash self.class.hash ^ fields.hash end def free_variables(set = Set.new) set.tap do fields.each_value do |type| type.free_variables set end end end def to_json(state = _ = nil) { class: :record, fields: fields, location: location }.to_json(state) end def sub(s) self.class.new(fields: fields.transform_values {|ty| ty.sub(s) }, location: location) end def to_s(level = 0) return "{ }" if self.fields.empty? fields = self.fields.map do |key, type| if key.is_a?(Symbol) && key.match?(/\A[A-Za-z_][A-Za-z_0-9]*\z/) "#{key}: #{type}" else "#{key.inspect} => #{type}" end end "{ #{fields.join(", ")} }" end def each_type(&block) if block fields.each_value(&block) else enum_for :each_type end end def map_type_name(&block) Record.new( fields: fields.transform_values {|ty| ty.map_type_name(&block) }, location: location ) end def map_type(&block) if block Record.new( fields: fields.transform_values {|type| yield type }, location: location ) else enum_for :map_type end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? {|type| type.with_nonreturn_void? } end end class Optional attr_reader :type attr_reader :location def initialize(type:, location:) @type = type @location = location end def ==(other) other.is_a?(Optional) && other.type == type end alias eql? == def hash self.class.hash ^ type.hash end def free_variables(set = Set.new) type.free_variables(set) end def to_json(state = _ = nil) { class: :optional, type: type, location: location }.to_json(state) end def sub(s) self.class.new(type: type.sub(s), location: location) end def to_s(level = 0) case t = type when RBS::Types::Literal case t.literal when Symbol return "#{type.to_s(1)} ?" end when RBS::Types::Proc return "(#{type.to_s(1)})?" end "#{type.to_s(1)}?" end def each_type if block_given? yield type else enum_for :each_type end end def map_type_name(&block) Optional.new( type: type.map_type_name(&block), location: location ) end def map_type(&block) if block Optional.new( type: yield(type), location: location ) else enum_for :map_type end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? {|type| type.with_nonreturn_void? } end end class Union attr_reader :types attr_reader :location def initialize(types:, location:) @types = types @location = location end def ==(other) other.is_a?(Union) && other.types == types end alias eql? == def hash self.class.hash ^ types.hash end def free_variables(set = Set.new) set.tap do types.each do |type| type.free_variables set end end end def to_json(state = _ = nil) { class: :union, types: types, location: location }.to_json(state) end def sub(s) self.class.new(types: types.map {|ty| ty.sub(s) }, location: location) end def to_s(level = 0) if level > 0 "(#{types.join(" | ")})" else types.join(" | ") end end def each_type(&block) if block types.each(&block) else enum_for :each_type end end def map_type(&block) if block Union.new(types: types.map(&block), location: location) else enum_for :map_type end end def map_type_name(&block) Union.new( types: types.map {|type| type.map_type_name(&block) }, location: location ) end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? {|type| type.with_nonreturn_void? } end end class Intersection attr_reader :types attr_reader :location def initialize(types:, location:) @types = types @location = location end def ==(other) other.is_a?(Intersection) && other.types == types end alias eql? == def hash self.class.hash ^ types.hash end def free_variables(set = Set.new) set.tap do types.each do |type| type.free_variables set end end end def to_json(state = _ = nil) { class: :intersection, types: types, location: location }.to_json(state) end def sub(s) self.class.new(types: types.map {|ty| ty.sub(s) }, location: location) end def to_s(level = 0) strs = types.map {|ty| ty.to_s(2) } if level > 0 "(#{strs.join(" & ")})" else strs.join(" & ") end end def each_type(&block) if block types.each(&block) else enum_for :each_type end end def map_type(&block) if block Intersection.new(types: types.map(&block), location: location) else enum_for :map_type end end def map_type_name(&block) Intersection.new( types: types.map {|type| type.map_type_name(&block) }, location: location ) end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? each_type.any? {|type| type.with_nonreturn_void? } end end class Function class Param attr_reader :type attr_reader :name attr_reader :location def initialize(type:, name:, location: nil) @type = type @name = name @location = location end def ==(other) other.is_a?(Param) && other.type == type && other.name == name end alias eql? == def hash self.class.hash ^ type.hash ^ name.hash end def map_type(&block) if block Param.new(name: name, type: yield(type), location: location) else enum_for :map_type end end def to_json(state = _ = nil) { type: type, name: name }.to_json(state) end def to_s if name "#{type} #{name}" else "#{type}" end end end attr_reader :required_positionals attr_reader :optional_positionals attr_reader :rest_positionals attr_reader :trailing_positionals attr_reader :required_keywords attr_reader :optional_keywords attr_reader :rest_keywords attr_reader :return_type def initialize(required_positionals:, optional_positionals:, rest_positionals:, trailing_positionals:, required_keywords:, optional_keywords:, rest_keywords:, return_type:) @return_type = return_type @required_positionals = required_positionals @optional_positionals = optional_positionals @rest_positionals = rest_positionals @trailing_positionals = trailing_positionals @required_keywords = required_keywords @optional_keywords = optional_keywords @rest_keywords = rest_keywords end def ==(other) other.is_a?(Function) && other.required_positionals == required_positionals && other.optional_positionals == optional_positionals && other.rest_positionals == rest_positionals && other.trailing_positionals == trailing_positionals && other.required_keywords == required_keywords && other.optional_keywords == optional_keywords && other.rest_keywords == rest_keywords && other.return_type == return_type end alias eql? == def hash self.class.hash ^ required_positionals.hash ^ optional_positionals.hash ^ rest_positionals.hash ^ trailing_positionals.hash ^ required_keywords.hash ^ optional_keywords.hash ^ rest_keywords.hash ^ return_type.hash end def free_variables(set = Set.new) set.tap do required_positionals.each do |param| param.type.free_variables(set) end optional_positionals.each do |param| param.type.free_variables(set) end rest_positionals&.yield_self do |param| param.type.free_variables(set) end trailing_positionals.each do |param| param.type.free_variables(set) end required_keywords.each_value do |param| param.type.free_variables(set) end optional_keywords.each_value do |param| param.type.free_variables(set) end rest_keywords&.yield_self do |param| param.type.free_variables(set) end return_type.free_variables(set) end end def map_type(&block) if block Function.new( required_positionals: amap(required_positionals) {|param| param.map_type(&block) }, optional_positionals: amap(optional_positionals) {|param| param.map_type(&block) }, rest_positionals: rest_positionals&.yield_self {|param| param.map_type(&block) }, trailing_positionals: amap(trailing_positionals) {|param| param.map_type(&block) }, required_keywords: hmapv(required_keywords) {|param| param.map_type(&block) }, optional_keywords: hmapv(optional_keywords) {|param| param.map_type(&block) }, rest_keywords: rest_keywords&.yield_self {|param| param.map_type(&block) }, return_type: yield(return_type) ) else enum_for :map_type end end def amap(array, &block) if array.empty? _ = array else array.map(&block) end end def hmapv(hash, &block) if hash.empty? _ = hash else hash.transform_values(&block) end end def map_type_name(&block) map_type do |type| type.map_type_name(&block) end end def each_type if block_given? required_positionals.each {|param| yield param.type } optional_positionals.each {|param| yield param.type } rest_positionals&.yield_self {|param| yield param.type } trailing_positionals.each {|param| yield param.type } required_keywords.each_value {|param| yield param.type } optional_keywords.each_value {|param| yield param.type } rest_keywords&.yield_self {|param| yield param.type } yield(return_type) else enum_for :each_type end end def each_param(&block) if block required_positionals.each(&block) optional_positionals.each(&block) rest_positionals&.yield_self(&block) trailing_positionals.each(&block) required_keywords.each_value(&block) optional_keywords.each_value(&block) rest_keywords&.yield_self(&block) else enum_for :each_param end end def to_json(state = _ = nil) { required_positionals: required_positionals, optional_positionals: optional_positionals, rest_positionals: rest_positionals, trailing_positionals: trailing_positionals, required_keywords: required_keywords, optional_keywords: optional_keywords, rest_keywords: rest_keywords, return_type: return_type }.to_json(state) end def sub(s) map_type {|ty| ty.sub(s) } end def self.empty(return_type) Function.new( required_positionals: [], optional_positionals: [], rest_positionals: nil, trailing_positionals: [], required_keywords: {}, optional_keywords: {}, rest_keywords: nil, return_type: return_type ) end def with_return_type(type) Function.new( required_positionals: required_positionals, optional_positionals: optional_positionals, rest_positionals: rest_positionals, trailing_positionals: trailing_positionals, required_keywords: required_keywords, optional_keywords: optional_keywords, rest_keywords: rest_keywords, return_type: type ) end def update(required_positionals: self.required_positionals, optional_positionals: self.optional_positionals, rest_positionals: self.rest_positionals, trailing_positionals: self.trailing_positionals, required_keywords: self.required_keywords, optional_keywords: self.optional_keywords, rest_keywords: self.rest_keywords, return_type: self.return_type) Function.new( required_positionals: required_positionals, optional_positionals: optional_positionals, rest_positionals: rest_positionals, trailing_positionals: trailing_positionals, required_keywords: required_keywords, optional_keywords: optional_keywords, rest_keywords: rest_keywords, return_type: return_type ) end def empty? required_positionals.empty? && optional_positionals.empty? && !rest_positionals && trailing_positionals.empty? && required_keywords.empty? && optional_keywords.empty? && !rest_keywords end def param_to_s # @type var params: Array[String] params = [] params.push(*required_positionals.map(&:to_s)) params.push(*optional_positionals.map {|p| "?#{p}"}) params.push("*#{rest_positionals}") if rest_positionals params.push(*trailing_positionals.map(&:to_s)) params.push(*required_keywords.map {|name, param| "#{name}: #{param}" }) params.push(*optional_keywords.map {|name, param| "?#{name}: #{param}" }) params.push("**#{rest_keywords}") if rest_keywords params.join(", ") end def return_to_s return_type.to_s(1) end def drop_head case when !required_positionals.empty? [ required_positionals[0], update(required_positionals: required_positionals.drop(1)) ] when !optional_positionals.empty? [ optional_positionals[0], update(optional_positionals: optional_positionals.drop(1)) ] else raise "Cannot #drop_head" end end def drop_tail case when !trailing_positionals.empty? last = trailing_positionals.last or raise [ last, update(trailing_positionals: trailing_positionals.take(trailing_positionals.size - 1)) ] else raise "Cannot #drop_tail" end end def has_keyword? if !required_keywords.empty? || !optional_keywords.empty? || rest_keywords true else false end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? if each_param.any? {|param| param.type.with_nonreturn_void? } true else if return_type.is_a?(Bases::Void) false else return_type.with_nonreturn_void? end end end end class Block attr_reader :type attr_reader :required attr_reader :self_type def initialize(type:, required:, self_type: nil) @type = type @required = required ? true : false @self_type = self_type end def ==(other) other.is_a?(Block) && other.type == type && other.required == required && other.self_type == self_type end def to_json(state = _ = nil) { type: type, required: required, self_type: self_type }.to_json(state) end def sub(s) self.class.new( type: type.sub(s), required: required, self_type: self_type&.sub(s) ) end def map_type(&block) Block.new( required: required, type: type.map_type(&block), self_type: self_type ? yield(self_type) : nil ) end end module SelfTypeBindingHelper module_function def self_type_binding_to_s(t) if t "[self: #{t}] " else "" end end end class Proc attr_reader :type attr_reader :block attr_reader :self_type attr_reader :location def initialize(location:, type:, block:, self_type: nil) @type = type @block = block @location = location @self_type = self_type end def ==(other) other.is_a?(Proc) && other.type == type && other.block == block && other.self_type == self_type end alias eql? == def hash self.class.hash ^ type.hash ^ block.hash ^ self_type.hash end def free_variables(set = Set[]) type.free_variables(set) block&.type&.free_variables(set) self_type&.free_variables(set) set end def to_json(state = _ = nil) { class: :proc, type: type, block: block, location: location, self_type: self_type }.to_json(state) end def sub(s) self.class.new( type: type.sub(s), block: block&.sub(s), self_type: self_type&.sub(s), location: location ) end def to_s(level = 0) self_binding = SelfTypeBindingHelper.self_type_binding_to_s(self_type) block_self_binding = SelfTypeBindingHelper.self_type_binding_to_s(block&.self_type) case when b = block if b.required "^(#{type.param_to_s}) #{self_binding}{ (#{b.type.param_to_s}) #{block_self_binding}-> #{b.type.return_to_s} } -> #{type.return_to_s}" else "^(#{type.param_to_s}) #{self_binding}?{ (#{b.type.param_to_s}) #{block_self_binding}-> #{b.type.return_to_s} } -> #{type.return_to_s}" end else "^(#{type.param_to_s}) #{self_binding}-> #{type.return_to_s}" end end def each_type(&block) if block type.each_type(&block) self.block&.type&.each_type(&block) if self_type = self.block&.self_type yield self_type end else enum_for :each_type end end def map_type_name(&block) Proc.new( type: type.map_type_name(&block), block: self.block&.map_type {|type| type.map_type_name(&block) }, self_type: self_type&.map_type_name(&block), location: location ) end def map_type(&block) if block Proc.new( type: type.map_type(&block), block: self.block&.map_type(&block), self_type: self_type ? yield(self_type) : nil, location: location ) else enum_for :map_type end end def has_self_type? each_type.any? {|type| type.has_self_type? } end def has_classish_type? each_type.any? {|type| type.has_classish_type? } end def with_nonreturn_void? if type.with_nonreturn_void? true else if block = block() block.type.with_nonreturn_void? || block.self_type&.with_nonreturn_void? || false else false end end end end class Literal attr_reader :literal attr_reader :location def initialize(literal:, location:) @literal = literal @location = location end def ==(other) other.is_a?(Literal) && other.literal == literal end alias eql? == def hash self.class.hash ^ literal.hash end include NoFreeVariables include NoSubst include EmptyEachType include NoTypeName def to_json(state = _ = nil) { class: :literal, literal: literal.inspect, location: location }.to_json(state) end def to_s(level = 0) literal.inspect end def has_self_type? false end def has_classish_type? false end def with_nonreturn_void? false end end end end