# frozen_string_literal: true module RBS class Environment attr_reader :declarations attr_reader :class_decls attr_reader :interface_decls attr_reader :type_alias_decls attr_reader :constant_decls attr_reader :global_decls attr_reader :class_alias_decls attr_reader :signatures module ContextUtil def calculate_context(decls) decls.inject(nil) do |context, decl| #$ Resolver::context if (_, last = context) last or raise [context, last + decl.name] else [nil, decl.name.absolute!] end end end end class MultiEntry D = _ = Struct.new(:decl, :outer, keyword_init: true) do # @implements D[M] include ContextUtil def context @context ||= calculate_context(outer + [decl]) end end attr_reader :name attr_reader :decls def initialize(name:) @name = name @decls = [] end def insert(decl:, outer:) decls << D.new(decl: decl, outer: outer) @primary = nil end def validate_type_params unless decls.empty? hd_decl, *tl_decls = decls raise unless hd_decl hd_params = hd_decl.decl.type_params tl_decls.each do |tl_decl| tl_params = tl_decl.decl.type_params unless compatible_params?(hd_params, tl_params) raise GenericParameterMismatchError.new(name: name, decl: _ = tl_decl.decl) end end end end def compatible_params?(ps1, ps2) if ps1.size == ps2.size ps1 == AST::TypeParam.rename(ps2, new_names: ps1.map(&:name)) end end def type_params primary.decl.type_params end def primary raise "Not implemented" end end class ModuleEntry < MultiEntry def self_types decls.flat_map do |d| d.decl.self_types end.uniq end def primary @primary ||= begin validate_type_params decls.first or raise("decls cannot be empty") end end end class ClassEntry < MultiEntry def primary @primary ||= begin validate_type_params decls.find {|d| d.decl.super_class } || decls.first or raise("decls cannot be empty") end end end class SingleEntry attr_reader :name attr_reader :outer attr_reader :decl def initialize(name:, decl:, outer:) @name = name @decl = decl @outer = outer end include ContextUtil def context @context ||= calculate_context(outer) end end class ModuleAliasEntry < SingleEntry end class ClassAliasEntry < SingleEntry end class InterfaceEntry < SingleEntry end class TypeAliasEntry < SingleEntry end class ConstantEntry < SingleEntry end class GlobalEntry < SingleEntry end def initialize @signatures = {} @declarations = [] @class_decls = {} @interface_decls = {} @type_alias_decls = {} @constant_decls = {} @global_decls = {} @class_alias_decls = {} @normalize_module_name_cache = {} end def initialize_copy(other) @signatures = other.signatures.dup @declarations = other.declarations.dup @class_decls = other.class_decls.dup @interface_decls = other.interface_decls.dup @type_alias_decls = other.type_alias_decls.dup @constant_decls = other.constant_decls.dup @global_decls = other.global_decls.dup @class_alias_decls = other.class_alias_decls.dup end def self.from_loader(loader) self.new.tap do |env| loader.load(env: env) end end def interface_name?(name) interface_decls.key?(name) end def type_alias_name?(name) type_alias_decls.key?(name) end def module_name?(name) class_decls.key?(name) || class_alias_decls.key?(name) end def type_name?(name) interface_name?(name) || type_alias_name?(name) || module_name?(name) end def constant_name?(name) constant_decl?(name) || module_name?(name) end def constant_decl?(name) constant_decls.key?(name) end def class_decl?(name) class_decls[name].is_a?(ClassEntry) end def module_decl?(name) class_decls[name].is_a?(ModuleEntry) end def module_alias?(name) if decl = class_alias_decls[name] decl.decl.is_a?(AST::Declarations::ModuleAlias) else false end end def class_alias?(name) if decl = class_alias_decls[name] decl.decl.is_a?(AST::Declarations::ClassAlias) else false end end def class_entry(type_name) case when (class_entry = class_decls[type_name]).is_a?(ClassEntry) class_entry when (class_alias = class_alias_decls[type_name]).is_a?(ClassAliasEntry) class_alias end end def module_entry(type_name) case when (module_entry = class_decls[type_name]).is_a?(ModuleEntry) module_entry when (module_alias = class_alias_decls[type_name]).is_a?(ModuleAliasEntry) module_alias end end def normalized_class_entry(type_name) if name = normalize_module_name?(type_name) case entry = class_entry(name) when ClassEntry, nil entry when ClassAliasEntry raise end end end def normalized_module_entry(type_name) if name = normalize_module_name?(type_name) case entry = module_entry(name) when ModuleEntry, nil entry when ModuleAliasEntry raise end end end def module_class_entry(type_name) class_entry(type_name) || module_entry(type_name) end def normalized_module_class_entry(type_name) normalized_class_entry(type_name) || normalized_module_entry(type_name) end def constant_entry(type_name) class_entry(type_name) || module_entry(type_name) || constant_decls[type_name] end def normalize_module_name(name) normalize_module_name?(name) or name end def normalize_module_name?(name) raise "Class/module name is expected: #{name}" unless name.class? name = name.absolute! if name.relative! if @normalize_module_name_cache.key?(name) return @normalize_module_name_cache[name] end @normalize_module_name_cache[name] = false entry = constant_entry(name) case entry when ClassEntry, ModuleEntry @normalize_module_name_cache[name] = entry.name entry.name when ClassAliasEntry, ModuleAliasEntry old_name = entry.decl.old_name if old_name.namespace.empty? @normalize_module_name_cache[name] = normalize_module_name?(old_name) else parent = old_name.namespace.to_type_name if normalized_parent = normalize_module_name?(parent) @normalize_module_name_cache[name] = if normalized_parent == parent normalize_module_name?(old_name) else normalize_module_name?( TypeName.new(name: old_name.name, namespace: normalized_parent.to_namespace) ) end else @normalize_module_name_cache[name] = nil end end when ConstantEntry raise "#{name} is a constant name" else @normalize_module_name_cache[name] = nil end end def insert_decl(decl, outer:, namespace:) case decl when AST::Declarations::Class, AST::Declarations::Module name = decl.name.with_prefix(namespace) if cdecl = constant_entry(name) if cdecl.is_a?(ConstantEntry) || cdecl.is_a?(ModuleAliasEntry) || cdecl.is_a?(ClassAliasEntry) raise DuplicatedDeclarationError.new(name, decl, cdecl.decl) end end unless class_decls.key?(name) case decl when AST::Declarations::Class class_decls[name] ||= ClassEntry.new(name: name) when AST::Declarations::Module class_decls[name] ||= ModuleEntry.new(name: name) end end existing_entry = class_decls[name] case when decl.is_a?(AST::Declarations::Module) && existing_entry.is_a?(ModuleEntry) existing_entry.insert(decl: decl, outer: outer) when decl.is_a?(AST::Declarations::Class) && existing_entry.is_a?(ClassEntry) existing_entry.insert(decl: decl, outer: outer) else raise DuplicatedDeclarationError.new(name, decl, existing_entry.decls[0].decl) end prefix = outer + [decl] ns = name.to_namespace decl.each_decl do |d| insert_decl(d, outer: prefix, namespace: ns) end when AST::Declarations::Interface name = decl.name.with_prefix(namespace) if interface_entry = interface_decls[name] raise DuplicatedDeclarationError.new(name, decl, interface_entry.decl) end interface_decls[name] = InterfaceEntry.new(name: name, decl: decl, outer: outer) when AST::Declarations::TypeAlias name = decl.name.with_prefix(namespace) if entry = type_alias_decls[name] raise DuplicatedDeclarationError.new(name, decl, entry.decl) end type_alias_decls[name] = TypeAliasEntry.new(name: name, decl: decl, outer: outer) when AST::Declarations::Constant name = decl.name.with_prefix(namespace) if entry = constant_entry(name) case entry when ClassAliasEntry, ModuleAliasEntry, ConstantEntry raise DuplicatedDeclarationError.new(name, decl, entry.decl) when ClassEntry, ModuleEntry raise DuplicatedDeclarationError.new(name, decl, *entry.decls.map(&:decl)) end end constant_decls[name] = ConstantEntry.new(name: name, decl: decl, outer: outer) when AST::Declarations::Global if entry = global_decls[decl.name] raise DuplicatedDeclarationError.new(name, decl, entry.decl) end global_decls[decl.name] = GlobalEntry.new(name: decl.name, decl: decl, outer: outer) when AST::Declarations::ClassAlias, AST::Declarations::ModuleAlias name = decl.new_name.with_prefix(namespace) if entry = constant_entry(name) case entry when ClassAliasEntry, ModuleAliasEntry, ConstantEntry raise DuplicatedDeclarationError.new(name, decl, entry.decl) when ClassEntry, ModuleEntry raise DuplicatedDeclarationError.new(name, decl, *entry.decls.map(&:decl)) end end case decl when AST::Declarations::ClassAlias class_alias_decls[name] = ClassAliasEntry.new(name: name, decl: decl, outer: outer) when AST::Declarations::ModuleAlias class_alias_decls[name] = ModuleAliasEntry.new(name: name, decl: decl, outer: outer) end end end def <<(decl) declarations << decl insert_decl(decl, outer: [], namespace: Namespace.root) self end def add_signature(buffer:, directives:, decls:) signatures[buffer] = [directives, decls] decls.each do |decl| self << decl end end def validate_type_params class_decls.each_value do |decl| decl.primary end end def resolve_type_names(only: nil) resolver = Resolver::TypeNameResolver.new(self) env = Environment.new table = UseMap::Table.new() table.known_types.merge(class_decls.keys) table.known_types.merge(class_alias_decls.keys) table.known_types.merge(type_alias_decls.keys) table.known_types.merge(interface_decls.keys) table.compute_children signatures.each do |buffer, (dirs, decls)| map = UseMap.new(table: table) dirs.each do |dir| dir.clauses.each do |clause| map.build_map(clause) end end decls = decls.map do |decl| if only && !only.member?(decl) decl else resolve_declaration(resolver, map, decl, outer: [], prefix: Namespace.root) end end env.add_signature(buffer: buffer, directives: dirs, decls: decls) end env end def resolver_context(*nesting) nesting.inject(nil) {|context, decl| #$ Resolver::context append_context(context, decl) } end def append_context(context, decl) if (_, last = context) last or raise [context, last + decl.name] else [nil, decl.name.absolute!] end end def resolve_declaration(resolver, map, decl, outer:, prefix:) if decl.is_a?(AST::Declarations::Global) # @type var decl: AST::Declarations::Global return AST::Declarations::Global.new( name: decl.name, type: absolute_type(resolver, map, decl.type, context: nil), location: decl.location, comment: decl.comment ) end context = resolver_context(*outer) case decl when AST::Declarations::Class outer_context = context inner_context = append_context(outer_context, decl) outer_ = outer + [decl] prefix_ = prefix + decl.name.to_namespace AST::Declarations::Class.new( name: decl.name.with_prefix(prefix), type_params: resolve_type_params(resolver, map, decl.type_params, context: inner_context), super_class: decl.super_class&.yield_self do |super_class| AST::Declarations::Class::Super.new( name: absolute_type_name(resolver, map, super_class.name, context: outer_context), args: super_class.args.map {|type| absolute_type(resolver, map, type, context: outer_context) }, location: super_class.location ) end, members: decl.members.map do |member| case member when AST::Members::Base resolve_member(resolver, map, member, context: inner_context) when AST::Declarations::Base resolve_declaration( resolver, map, member, outer: outer_, prefix: prefix_ ) else raise end end, location: decl.location, annotations: decl.annotations, comment: decl.comment ) when AST::Declarations::Module outer_context = context inner_context = append_context(outer_context, decl) outer_ = outer + [decl] prefix_ = prefix + decl.name.to_namespace AST::Declarations::Module.new( name: decl.name.with_prefix(prefix), type_params: resolve_type_params(resolver, map, decl.type_params, context: inner_context), self_types: decl.self_types.map do |module_self| AST::Declarations::Module::Self.new( name: absolute_type_name(resolver, map, module_self.name, context: inner_context), args: module_self.args.map {|type| absolute_type(resolver, map, type, context: inner_context) }, location: module_self.location ) end, members: decl.members.map do |member| case member when AST::Members::Base resolve_member(resolver, map, member, context: inner_context) when AST::Declarations::Base resolve_declaration( resolver, map, member, outer: outer_, prefix: prefix_ ) else raise end end, location: decl.location, annotations: decl.annotations, comment: decl.comment ) when AST::Declarations::Interface AST::Declarations::Interface.new( name: decl.name.with_prefix(prefix), type_params: resolve_type_params(resolver, map, decl.type_params, context: context), members: decl.members.map do |member| resolve_member(resolver, map, member, context: context) end, comment: decl.comment, location: decl.location, annotations: decl.annotations ) when AST::Declarations::TypeAlias AST::Declarations::TypeAlias.new( name: decl.name.with_prefix(prefix), type_params: resolve_type_params(resolver, map, decl.type_params, context: context), type: absolute_type(resolver, map, decl.type, context: context), location: decl.location, annotations: decl.annotations, comment: decl.comment ) when AST::Declarations::Constant AST::Declarations::Constant.new( name: decl.name.with_prefix(prefix), type: absolute_type(resolver, map, decl.type, context: context), location: decl.location, comment: decl.comment ) when AST::Declarations::ClassAlias AST::Declarations::ClassAlias.new( new_name: decl.new_name.with_prefix(prefix), old_name: absolute_type_name(resolver, map, decl.old_name, context: context), location: decl.location, comment: decl.comment ) when AST::Declarations::ModuleAlias AST::Declarations::ModuleAlias.new( new_name: decl.new_name.with_prefix(prefix), old_name: absolute_type_name(resolver, map, decl.old_name, context: context), location: decl.location, comment: decl.comment ) end end def resolve_member(resolver, map, member, context:) case member when AST::Members::MethodDefinition AST::Members::MethodDefinition.new( name: member.name, kind: member.kind, overloads: member.overloads.map do |overload| overload.update( method_type: resolve_method_type(resolver, map, overload.method_type, context: context) ) end, comment: member.comment, overloading: member.overloading?, annotations: member.annotations, location: member.location, visibility: member.visibility ) when AST::Members::AttrAccessor AST::Members::AttrAccessor.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), kind: member.kind, annotations: member.annotations, comment: member.comment, location: member.location, ivar_name: member.ivar_name, visibility: member.visibility ) when AST::Members::AttrReader AST::Members::AttrReader.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), kind: member.kind, annotations: member.annotations, comment: member.comment, location: member.location, ivar_name: member.ivar_name, visibility: member.visibility ) when AST::Members::AttrWriter AST::Members::AttrWriter.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), kind: member.kind, annotations: member.annotations, comment: member.comment, location: member.location, ivar_name: member.ivar_name, visibility: member.visibility ) when AST::Members::InstanceVariable AST::Members::InstanceVariable.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), comment: member.comment, location: member.location ) when AST::Members::ClassInstanceVariable AST::Members::ClassInstanceVariable.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), comment: member.comment, location: member.location ) when AST::Members::ClassVariable AST::Members::ClassVariable.new( name: member.name, type: absolute_type(resolver, map, member.type, context: context), comment: member.comment, location: member.location ) when AST::Members::Include AST::Members::Include.new( name: absolute_type_name(resolver, map, member.name, context: context), args: member.args.map {|type| absolute_type(resolver, map, type, context: context) }, comment: member.comment, location: member.location, annotations: member.annotations ) when AST::Members::Extend AST::Members::Extend.new( name: absolute_type_name(resolver, map, member.name, context: context), args: member.args.map {|type| absolute_type(resolver, map, type, context: context) }, comment: member.comment, location: member.location, annotations: member.annotations ) when AST::Members::Prepend AST::Members::Prepend.new( name: absolute_type_name(resolver, map, member.name, context: context), args: member.args.map {|type| absolute_type(resolver, map, type, context: context) }, comment: member.comment, location: member.location, annotations: member.annotations ) else member end end def resolve_method_type(resolver, map, type, context:) type.map_type do |ty| absolute_type(resolver, map, ty, context: context) end.map_type_bound do |bound| _ = absolute_type(resolver, map, bound, context: context) end end def resolve_type_params(resolver, map, params, context:) params.map do |param| param.map_type {|type| _ = absolute_type(resolver, map, type, context: context) } end end def absolute_type_name(resolver, map, type_name, context:) type_name = map.resolve(type_name) resolver.resolve(type_name, context: context) || type_name end def absolute_type(resolver, map, type, context:) type.map_type_name do |name, _, _| absolute_type_name(resolver, map, name, context: context) end end def inspect ivars = %i[@declarations @class_decls @class_alias_decls @interface_decls @type_alias_decls @constant_decls @global_decls] "\#" end def buffers signatures.keys end def unload(buffers) env = Environment.new signatures.each do |buf, (dirs, decls)| next if buffers.include?(buf) env.add_signature(buffer: buf, directives: dirs, decls: decls) end env end end end