# frozen_string_literal: true require 'concurrent/map' require 'concurrent/hash' require 'i18n/version' require 'i18n/utils' require 'i18n/exceptions' require 'i18n/interpolate/ruby' module I18n autoload :Backend, 'i18n/backend' autoload :Config, 'i18n/config' autoload :Gettext, 'i18n/gettext' autoload :Locale, 'i18n/locale' autoload :Tests, 'i18n/tests' autoload :Middleware, 'i18n/middleware' RESERVED_KEYS = %i[ cascade deep_interpolation default exception_handler fallback fallback_in_progress fallback_original_locale format object raise resolve scope separator throw ] EMPTY_HASH = {}.freeze def self.new_double_nested_cache # :nodoc: Concurrent::Map.new { |h, k| h[k] = Concurrent::Map.new } end # Marks a key as reserved. Reserved keys are used internally, # and can't also be used for interpolation. If you are using any # extra keys as I18n options, you should call I18n.reserve_key # before any I18n.translate (etc) calls are made. def self.reserve_key(key) RESERVED_KEYS << key.to_sym @reserved_keys_pattern = nil end def self.reserved_keys_pattern # :nodoc: @reserved_keys_pattern ||= /%\{(#{RESERVED_KEYS.join("|")})\}/ end module Base # Gets I18n configuration object. def config Thread.current[:i18n_config] ||= I18n::Config.new end # Sets I18n configuration object. def config=(value) Thread.current[:i18n_config] = value end # Write methods which delegates to the configuration object %w(locale backend default_locale available_locales default_separator exception_handler load_path enforce_available_locales).each do |method| module_eval <<-DELEGATORS, __FILE__, __LINE__ + 1 def #{method} config.#{method} end def #{method}=(value) config.#{method} = (value) end DELEGATORS end # Tells the backend to reload translations. Used in situations like the # Rails development environment. Backends can implement whatever strategy # is useful. def reload! config.clear_available_locales_set config.backend.reload! end # Tells the backend to load translations now. Used in situations like the # Rails production environment. Backends can implement whatever strategy # is useful. def eager_load! config.backend.eager_load! end # Translates, pluralizes and interpolates a given key using a given locale, # scope, and default, as well as interpolation values. # # *LOOKUP* # # Translation data is organized as a nested hash using the upper-level keys # as namespaces. E.g., ActionView ships with the translation: # :date => {:formats => {:short => "%b %d"}}. # # Translations can be looked up at any level of this hash using the key argument # and the scope option. E.g., in this example I18n.t :date # returns the whole translations hash {:formats => {:short => "%b %d"}}. # # Key can be either a single key or a dot-separated key (both Strings and Symbols # work). E.g., the short format can be looked up using both: # I18n.t 'date.formats.short' # I18n.t :'date.formats.short' # # Scope can be either a single key, a dot-separated key or an array of keys # or dot-separated keys. Keys and scopes can be combined freely. So these # examples will all look up the same short date format: # I18n.t 'date.formats.short' # I18n.t 'formats.short', :scope => 'date' # I18n.t 'short', :scope => 'date.formats' # I18n.t 'short', :scope => %w(date formats) # # *INTERPOLATION* # # Translations can contain interpolation variables which will be replaced by # values passed to #translate as part of the options hash, with the keys matching # the interpolation variable names. # # E.g., with a translation :foo => "foo %{bar}" the option # value for the key +bar+ will be interpolated into the translation: # I18n.t :foo, :bar => 'baz' # => 'foo baz' # # *PLURALIZATION* # # Translation data can contain pluralized translations. Pluralized translations # are arrays of singular/plural versions of translations like ['Foo', 'Foos']. # # Note that I18n::Backend::Simple only supports an algorithm for English # pluralization rules. Other algorithms can be supported by custom backends. # # This returns the singular version of a pluralized translation: # I18n.t :foo, :count => 1 # => 'Foo' # # These both return the plural version of a pluralized translation: # I18n.t :foo, :count => 0 # => 'Foos' # I18n.t :foo, :count => 2 # => 'Foos' # # The :count option can be used both for pluralization and interpolation. # E.g., with the translation # :foo => ['%{count} foo', '%{count} foos'], count will # be interpolated to the pluralized translation: # I18n.t :foo, :count => 1 # => '1 foo' # # *DEFAULTS* # # This returns the translation for :foo or default if no translation was found: # I18n.t :foo, :default => 'default' # # This returns the translation for :foo or the translation for :bar if no # translation for :foo was found: # I18n.t :foo, :default => :bar # # Returns the translation for :foo or the translation for :bar # or default if no translations for :foo and :bar were found. # I18n.t :foo, :default => [:bar, 'default'] # # *BULK LOOKUP* # # This returns an array with the translations for :foo and :bar. # I18n.t [:foo, :bar] # # Can be used with dot-separated nested keys: # I18n.t [:'baz.foo', :'baz.bar'] # # Which is the same as using a scope option: # I18n.t [:foo, :bar], :scope => :baz # # *LAMBDAS* # # Both translations and defaults can be given as Ruby lambdas. Lambdas will be # called and passed the key and options. # # E.g. assuming the key :salutation resolves to: # lambda { |key, options| options[:gender] == 'm' ? "Mr. #{options[:name]}" : "Mrs. #{options[:name]}" } # # Then I18n.t(:salutation, :gender => 'w', :name => 'Smith') will result in "Mrs. Smith". # # Note that the string returned by lambda will go through string interpolation too, # so the following lambda would give the same result: # lambda { |key, options| options[:gender] == 'm' ? "Mr. %{name}" : "Mrs. %{name}" } # # It is recommended to use/implement lambdas in an "idempotent" way. E.g. when # a cache layer is put in front of I18n.translate it will generate a cache key # from the argument values passed to #translate. Therefore your lambdas should # always return the same translations/values per unique combination of argument # values. # # *Ruby 2.7+ keyword arguments warning* # # This method uses keyword arguments. # There is a breaking change in ruby that produces warning with ruby 2.7 and won't work as expected with ruby 3.0 # The "hash" parameter must be passed as keyword argument. # # Good: # I18n.t(:salutation, :gender => 'w', :name => 'Smith') # I18n.t(:salutation, **{ :gender => 'w', :name => 'Smith' }) # I18n.t(:salutation, **any_hash) # # Bad: # I18n.t(:salutation, { :gender => 'w', :name => 'Smith' }) # I18n.t(:salutation, any_hash) # def translate(key = nil, throw: false, raise: false, locale: nil, **options) # TODO deprecate :raise locale ||= config.locale raise Disabled.new('t') if locale == false enforce_available_locales!(locale) backend = config.backend result = catch(:exception) do if key.is_a?(Array) key.map { |k| backend.translate(locale, k, options) } else backend.translate(locale, key, options) end end if result.is_a?(MissingTranslation) handle_exception((throw && :throw || raise && :raise), result, locale, key, options) else result end end alias :t :translate # Wrapper for translate that adds :raise => true. With # this option, if no translation is found, it will raise I18n::MissingTranslationData def translate!(key, **options) translate(key, **options, raise: true) end alias :t! :translate! # Returns true if a translation exists for a given key, otherwise returns false. def exists?(key, _locale = nil, locale: _locale, **options) locale ||= config.locale raise Disabled.new('exists?') if locale == false raise I18n::ArgumentError if key.is_a?(String) && key.empty? config.backend.exists?(locale, key, options) end # Transliterates UTF-8 characters to ASCII. By default this method will # transliterate only Latin strings to an ASCII approximation: # # I18n.transliterate("Ærøskøbing") # # => "AEroskobing" # # I18n.transliterate("日本語") # # => "???" # # It's also possible to add support for per-locale transliterations. I18n # expects transliteration rules to be stored at # i18n.transliterate.rule. # # Transliteration rules can either be a Hash or a Proc. Procs must accept a # single string argument. Hash rules inherit the default transliteration # rules, while Procs do not. # # *Examples* # # Setting a Hash in .yml: # # i18n: # transliterate: # rule: # ü: "ue" # ö: "oe" # # Setting a Hash using Ruby: # # store_translations(:de, i18n: { # transliterate: { # rule: { # 'ü' => 'ue', # 'ö' => 'oe' # } # } # }) # # Setting a Proc: # # translit = lambda {|string| MyTransliterator.transliterate(string) } # store_translations(:xx, :i18n => {:transliterate => {:rule => translit}) # # Transliterating strings: # # I18n.locale = :en # I18n.transliterate("Jürgen") # => "Jurgen" # I18n.locale = :de # I18n.transliterate("Jürgen") # => "Juergen" # I18n.transliterate("Jürgen", :locale => :en) # => "Jurgen" # I18n.transliterate("Jürgen", :locale => :de) # => "Juergen" def transliterate(key, throw: false, raise: false, locale: nil, replacement: nil, **options) locale ||= config.locale raise Disabled.new('transliterate') if locale == false enforce_available_locales!(locale) config.backend.transliterate(locale, key, replacement) rescue I18n::ArgumentError => exception handle_exception((throw && :throw || raise && :raise), exception, locale, key, options) end # Localizes certain objects, such as dates and numbers to local formatting. def localize(object, locale: nil, format: nil, **options) locale ||= config.locale raise Disabled.new('l') if locale == false enforce_available_locales!(locale) format ||= :default config.backend.localize(locale, object, format, options) end alias :l :localize # Executes block with given I18n.locale set. def with_locale(tmp_locale = nil) if tmp_locale == nil yield else current_locale = self.locale self.locale = tmp_locale begin yield ensure self.locale = current_locale end end end # Merges the given locale, key and scope into a single array of keys. # Splits keys that contain dots into multiple keys. Makes sure all # keys are Symbols. def normalize_keys(locale, key, scope, separator = nil) separator ||= I18n.default_separator [ *normalize_key(locale, separator), *normalize_key(scope, separator), *normalize_key(key, separator) ] end # Returns true when the passed locale, which can be either a String or a # Symbol, is in the list of available locales. Returns false otherwise. def locale_available?(locale) I18n.config.available_locales_set.include?(locale) end # Raises an InvalidLocale exception when the passed locale is not available. def enforce_available_locales!(locale) if locale != false && config.enforce_available_locales raise I18n::InvalidLocale.new(locale) if !locale_available?(locale) end end def available_locales_initialized? config.available_locales_initialized? end private # Any exceptions thrown in translate will be sent to the @@exception_handler # which can be a Symbol, a Proc or any other Object unless they're forced to # be raised or thrown (MissingTranslation). # # If exception_handler is a Symbol then it will simply be sent to I18n as # a method call. A Proc will simply be called. In any other case the # method #call will be called on the exception_handler object. # # Examples: # # I18n.exception_handler = :custom_exception_handler # this is the default # I18n.custom_exception_handler(exception, locale, key, options) # will be called like this # # I18n.exception_handler = lambda { |*args| ... } # a lambda # I18n.exception_handler.call(exception, locale, key, options) # will be called like this # # I18n.exception_handler = I18nExceptionHandler.new # an object # I18n.exception_handler.call(exception, locale, key, options) # will be called like this def handle_exception(handling, exception, locale, key, options) case handling when :raise raise exception.respond_to?(:to_exception) ? exception.to_exception : exception when :throw throw :exception, exception else case handler = options[:exception_handler] || config.exception_handler when Symbol send(handler, exception, locale, key, options) else handler.call(exception, locale, key, options) end end end @@normalized_key_cache = I18n.new_double_nested_cache def normalize_key(key, separator) @@normalized_key_cache[separator][key] ||= case key when Array key.flat_map { |k| normalize_key(k, separator) } else keys = key.to_s.split(separator) keys.delete('') keys.map! do |k| case k when /\A[-+]?([1-9]\d*|0)\z/ # integer k.to_i when 'true' true when 'false' false else k.to_sym end end keys end end end extend Base end