# frozen_string_literal: true
# typed: false
module T::Private::Methods
@installed_hooks = Set.new
@signatures_by_method = {}
@sig_wrappers = {}
@sigs_that_raised = {}
# the info about whether a method is final is not stored in a DeclBuilder nor a Signature, but instead right here.
# this is because final checks are special:
# - they are done possibly before any sig block has run.
# - they are done even if the method being defined doesn't have a sig.
@final_methods = Set.new
# a non-singleton is a module for which at least one of the following is true:
# - is declared final
# - defines a method that is declared final
# - includes an non-singleton
# - extends an non-singleton
# a singleton is the singleton_class of a non-singleton.
# modules_with_final is the set of singletons and non-singletons.
@modules_with_final = Set.new
# this stores the old [included, extended] hooks for Module and inherited hook for Class that we override when
# enabling final checks for when those hooks are called. the 'hooks' here don't have anything to do with the 'hooks'
# in installed_hooks.
@old_hooks = nil
ARG_NOT_PROVIDED = Object.new
PROC_TYPE = Object.new
DeclarationBlock = Struct.new(:mod, :loc, :blk, :final)
def self.declare_sig(mod, arg, &blk)
install_hooks(mod)
if T::Private::DeclState.current.active_declaration
T::Private::DeclState.current.reset!
raise "You called sig twice without declaring a method inbetween"
end
if !arg.nil? && arg != :final
raise "Invalid argument to `sig`: #{arg}"
end
loc = caller_locations(2, 1).first
T::Private::DeclState.current.active_declaration = DeclarationBlock.new(mod, loc, blk, arg == :final)
nil
end
def self.start_proc
DeclBuilder.new(PROC_TYPE)
end
def self.finalize_proc(decl)
decl.finalized = true
if decl.mode != Modes.standard
raise "Procs cannot have override/abstract modifiers"
end
if decl.mod != PROC_TYPE
raise "You are passing a DeclBuilder as a type. Did you accidentally use `self` inside a `sig` block?"
end
if decl.returns == ARG_NOT_PROVIDED
raise "Procs must specify a return type"
end
if decl.on_failure != ARG_NOT_PROVIDED
raise "Procs cannot use .on_failure"
end
if decl.params == ARG_NOT_PROVIDED
decl.params = {}
end
T::Types::Proc.new(decl.params, decl.returns) # rubocop:disable PrisonGuard/UseOpusTypesShortcut
end
# See docs at T::Utils.register_forwarder.
def self.register_forwarder(from_method, to_method, mode: Modes.overridable, remove_first_param: false)
# Normalize the method (see comment in signature_for_key).
from_method = from_method.owner.instance_method(from_method.name)
from_key = method_to_key(from_method)
maybe_run_sig_block_for_key(from_key)
if @signatures_by_method.key?(from_key)
raise "#{from_method} already has a method signature"
end
from_params = from_method.parameters
if from_params.length != 2 || from_params[0][0] != :rest || from_params[1][0] != :block
raise "forwarder methods should take a single splat param and a block param. `#{from_method}` " \
"takes these params: #{from_params}. For help, ask #dev-productivity."
end
# If there's already a signature for to_method, we get `parameters` from there, to enable
# chained forwarding. NB: we don't use `signature_for_key` here, because the normalization it
# does is broken when `to_method` has been clobbered by another method.
to_key = method_to_key(to_method)
maybe_run_sig_block_for_key(to_key)
to_params = @signatures_by_method[to_key]&.parameters || to_method.parameters
if remove_first_param
to_params = to_params[1..-1]
end
# We don't bother trying to preserve any types from to_signature because this won't be
# statically analyzed, and the types will just get checked when the forwarding happens.
from_signature = Signature.new_untyped(method: from_method, mode: mode, parameters: to_params)
@signatures_by_method[from_key] = from_signature
end
# Returns the signature for a method whose definition was preceded by `sig`.
#
# @param method [UnboundMethod]
# @return [T::Private::Methods::Signature]
def self.signature_for_method(method)
signature_for_key(method_to_key(method))
end
private_class_method def self.signature_for_key(key)
maybe_run_sig_block_for_key(key)
# If a subclass Sub inherits a method `foo` from Base, then
# Sub.instance_method(:foo) != Base.instance_method(:foo) even though they resolve to the
# same method. Similarly, Foo.method(:bar) != Foo.singleton_class.instance_method(:bar).
# So, we always do the look up by the method on the owner (Base in this example).
@signatures_by_method[key]
end
# when target includes a module with instance methods source_method_names, ensure there is zero intersection between
# the final instance methods of target and source_method_names. so, for every m in source_method_names, check if there
# is already a method defined on one of target_ancestors with the same name that is final.
def self._check_final_ancestors(target, target_ancestors, source_method_names)
if !module_with_final?(target)
return
end
# use reverse_each to check farther-up ancestors first, for better error messages. we could avoid this if we were on
# the version of ruby that adds the optional argument to method_defined? that allows you to exclude ancestors.
target_ancestors.reverse_each do |ancestor|
source_method_names.each do |method_name|
# the usage of method_owner_and_name_to_key(ancestor, method_name) instead of
# method_to_key(ancestor.instance_method(method_name)) is not (just) an optimization, but also required for
# correctness, since ancestor.method_defined?(method_name) may return true even if method_name is not defined
# directly on ancestor but instead an ancestor of ancestor.
if ancestor.method_defined?(method_name) && final_method?(method_owner_and_name_to_key(ancestor, method_name))
raise(
"The method `#{method_name}` on #{ancestor} was declared as final and cannot be " +
(target == ancestor ? "redefined" : "overridden in #{target}")
)
end
end
end
end
private_class_method def self.add_final_method(method_key)
@final_methods.add(method_key)
end
private_class_method def self.final_method?(method_key)
@final_methods.include?(method_key)
end
def self.add_module_with_final(mod)
@modules_with_final.add(mod)
@modules_with_final.add(mod.singleton_class)
end
private_class_method def self.module_with_final?(mod)
@modules_with_final.include?(mod)
end
# Only public because it needs to get called below inside the replace_method blocks below.
def self._on_method_added(hook_mod, method_name, is_singleton_method: false)
if T::Private::DeclState.current.skip_on_method_added
return
end
current_declaration = T::Private::DeclState.current.active_declaration
mod = is_singleton_method ? hook_mod.singleton_class : hook_mod
if T::Private::Final.final_module?(mod) && (current_declaration.nil? || !current_declaration.final)
raise "#{mod} was declared as final but its method `#{method_name}` was not declared as final"
end
_check_final_ancestors(mod, mod.ancestors, [method_name])
if current_declaration.nil?
return
end
T::Private::DeclState.current.reset!
if method_name == :method_added || method_name == :singleton_method_added
raise(
"Putting a `sig` on `#{method_name}` is not supported" +
" (sorbet-runtime uses this method internally to perform `sig` validation logic)"
)
end
original_method = mod.instance_method(method_name)
sig_block = lambda do
T::Private::Methods.run_sig(hook_mod, method_name, original_method, current_declaration)
end
# Always replace the original method with this wrapper,
# which is called only on the *first* invocation.
# This wrapper is very slow, so it will subsequently re-wrap with a much faster wrapper
# (or unwrap back to the original method).
new_method = nil
T::Private::ClassUtils.replace_method(mod, method_name) do |*args, &blk|
if !T::Private::Methods.has_sig_block_for_method(new_method)
# This should only happen if the user used alias_method to grab a handle
# to the original pre-unwound `sig` method. I guess we'll just proxy the
# call forever since we don't know who is holding onto this handle to
# replace it.
new_new_method = mod.instance_method(method_name)
if new_method == new_new_method
raise "`sig` not present for method `#{method_name}` but you're trying to run it anyways. " \
"This should only be executed if you used `alias_method` to grab a handle to a method after `sig`ing it, but that clearly isn't what you are doing. " \
"Maybe look to see if an exception was thrown in your `sig` lambda or somehow else your `sig` wasn't actually applied to the method. " \
"Contact #dev-productivity if you're really stuck."
end
return new_new_method.bind(self).call(*args, &blk)
end
method_sig = T::Private::Methods.run_sig_block_for_method(new_method)
# Should be the same logic as CallValidation.wrap_method_if_needed but we
# don't want that extra layer of indirection in the callstack
if method_sig.mode == T::Private::Methods::Modes.abstract
# We're in an interface method, keep going up the chain
if defined?(super)
super(*args, &blk)
else
raise NotImplementedError.new("The method `#{method_sig.method_name}` on #{mod} is declared as `abstract`. It does not have an implementation.")
end
# Note, this logic is duplicated (intentionally, for micro-perf) at `CallValidation.wrap_method_if_needed`,
# make sure to keep changes in sync.
elsif method_sig.check_level == :always || (method_sig.check_level == :tests && T::Private::RuntimeLevels.check_tests?)
CallValidation.validate_call(self, original_method, method_sig, args, blk)
else
original_method.bind(self).call(*args, &blk)
end
end
new_method = mod.instance_method(method_name)
key = method_to_key(new_method)
@sig_wrappers[key] = sig_block
if current_declaration.final
add_final_method(key)
# use hook_mod, not mod, because for example, we want class C to be marked as having final if we def C.foo as
# final. change this to mod to see some final_method tests fail.
add_module_with_final(hook_mod)
end
end
# Executes the `sig` block, and converts the resulting Declaration
# to a Signature.
def self.run_sig(hook_mod, method_name, original_method, declaration_block)
current_declaration =
begin
run_builder(declaration_block)
rescue DeclBuilder::BuilderError => e
T::Configuration.sig_builder_error_handler(e, declaration_block.loc)
nil
end
signature =
if current_declaration
build_sig(hook_mod, method_name, original_method, current_declaration, declaration_block.loc)
else
Signature.new_untyped(method: original_method)
end
unwrap_method(hook_mod, signature, original_method)
signature
end
def self.run_builder(declaration_block)
builder = DeclBuilder.new(declaration_block.mod)
builder
.instance_exec(&declaration_block.blk)
.finalize!
.decl
end
def self.build_sig(hook_mod, method_name, original_method, current_declaration, loc)
begin
# We allow `sig` in the current module's context (normal case) and inside `class << self`
if hook_mod != current_declaration.mod && hook_mod.singleton_class != current_declaration.mod
raise "A method (#{method_name}) is being added on a different class/module (#{hook_mod}) than the " \
"last call to `sig` (#{current_declaration.mod}). Make sure each call " \
"to `sig` is immediately followed by a method definition on the same " \
"class/module."
end
signature = Signature.new(
method: original_method,
method_name: method_name,
raw_arg_types: current_declaration.params,
raw_return_type: current_declaration.returns,
bind: current_declaration.bind,
mode: current_declaration.mode,
check_level: current_declaration.checked,
on_failure: current_declaration.on_failure,
override_allow_incompatible: current_declaration.override_allow_incompatible,
)
SignatureValidation.validate(signature)
signature
rescue => e
super_method = original_method&.super_method
super_signature = signature_for_method(super_method) if super_method
T::Configuration.sig_validation_error_handler(
e,
method: original_method,
declaration: current_declaration,
signature: signature,
super_signature: super_signature
)
Signature.new_untyped(method: original_method)
end
end
def self.unwrap_method(hook_mod, signature, original_method)
maybe_wrapped_method = CallValidation.wrap_method_if_needed(signature.method.owner, signature, original_method)
@signatures_by_method[method_to_key(maybe_wrapped_method)] = signature
end
def self.has_sig_block_for_method(method)
has_sig_block_for_key(method_to_key(method))
end
private_class_method def self.has_sig_block_for_key(key)
@sig_wrappers.key?(key)
end
def self.maybe_run_sig_block_for_method(method)
maybe_run_sig_block_for_key(method_to_key(method))
end
private_class_method def self.maybe_run_sig_block_for_key(key)
run_sig_block_for_key(key) if has_sig_block_for_key(key)
end
def self.run_sig_block_for_method(method)
run_sig_block_for_key(method_to_key(method))
end
private_class_method def self.run_sig_block_for_key(key)
blk = @sig_wrappers[key]
if !blk
sig = @signatures_by_method[key]
if sig
# We already ran the sig block, perhaps in another thread.
return sig
else
raise "No `sig` wrapper for #{key_to_method(key)}"
end
end
begin
sig = blk.call
rescue
@sigs_that_raised[key] = true
raise
end
if @sigs_that_raised[key]
raise "A previous invocation of #{key_to_method(key)} raised, and the current one succeeded. Please don't do that."
end
@sig_wrappers.delete(key)
sig
end
def self.run_all_sig_blocks
loop do
break if @sig_wrappers.empty?
key, _ = @sig_wrappers.first
run_sig_block_for_key(key)
end
end
# the module target is adding the methods from the module source to itself. we need to check that for all instance
# methods M on source, M is not defined on any of target's ancestors.
def self._hook_impl(target, target_ancestors, source)
if !module_with_final?(target) && !module_with_final?(source)
return
end
add_module_with_final(target)
install_hooks(target)
_check_final_ancestors(target, target_ancestors - source.ancestors, source.instance_methods)
end
def self.set_final_checks_on_hooks(enable)
is_enabled = @old_hooks != nil
if enable == is_enabled
return
end
if is_enabled
@old_hooks.each(&:restore)
@old_hooks = nil
else
old_included = T::Private::ClassUtils.replace_method(Module, :included) do |arg|
old_included.bind(self).call(arg)
::T::Private::Methods._hook_impl(arg, arg.ancestors, self)
end
old_extended = T::Private::ClassUtils.replace_method(Module, :extended) do |arg|
old_extended.bind(self).call(arg)
::T::Private::Methods._hook_impl(arg, arg.singleton_class.ancestors, self)
end
old_inherited = T::Private::ClassUtils.replace_method(Class, :inherited) do |arg|
old_inherited.bind(self).call(arg)
::T::Private::Methods._hook_impl(arg, arg.ancestors, self)
end
@old_hooks = [old_included, old_extended, old_inherited]
end
end
module MethodHooks
def method_added(name)
super(name)
::T::Private::Methods._on_method_added(self, name, is_singleton_method: false)
end
end
module SingletonMethodHooks
def singleton_method_added(name)
super(name)
::T::Private::Methods._on_method_added(self, name, is_singleton_method: true)
end
end
def self.install_hooks(mod)
return if @installed_hooks.include?(mod)
@installed_hooks << mod
if mod.singleton_class?
mod.include(SingletonMethodHooks)
else
mod.extend(MethodHooks)
end
mod.extend(SingletonMethodHooks)
end
# use this directly if you don't want/need to box up the method into an object to pass to method_to_key.
private_class_method def self.method_owner_and_name_to_key(owner, name)
"#{owner.object_id}##{name}"
end
private_class_method def self.method_to_key(method)
method_owner_and_name_to_key(method.owner, method.name)
end
private_class_method def self.key_to_method(key)
id, name = key.split("#")
obj = ObjectSpace._id2ref(id.to_i) # rubocop:disable PrisonGuard/NoDynamicConstAccess
obj.instance_method(name)
end
end