Code Comments¶ ↑

Ruby has two types of comments: inline and block.

Inline comments start with the # character and continue until the end of the line:

# On a separate line class Foo # or at the end of the line   # can be indented   def bar   end end 

Block comments start with =begin and end with =end. Each should start on a separate line.

=begin This is commented out =end  class Foo end  =begin some_tag this works, too =end 

=begin and =end can not be indented, so this is a syntax error:

class Foo   =begin   Will not work   =end end

Magic Comments¶ ↑

While comments are typically ignored by Ruby, special “magic comments” contain directives that affect how the code is interpreted.

Top-level magic comments must appear in the first comment section of a file.

NOTE: Magic comments affect only the file in which they appear; other files are unaffected.

# frozen_string_literal: true  var = 'hello' var.frozen? # => true 

Alternative syntax¶ ↑

Magic comments may consist of a single directive (as in the example above). Alternatively, multiple directives may appear on the same line if separated by “;” and wrapped between “-*-” (see Emacs’ file variables).

# emacs-compatible; -*- coding: big5; mode: ruby; frozen_string_literal: true -*-  p 'hello'.frozen? # => true p 'hello'.encoding # => #<Encoding:Big5> 

encoding Directive¶ ↑

Indicates which string encoding should be used for string literals, regexp literals and __ENCODING__:

# encoding: big5  ''.encoding # => #<Encoding:Big5> 

Default encoding is UTF-8.

Top-level magic comments must start on the first line, or on the second line if the first line looks like ! shebang line.

The word “coding” may be used instead of “encoding”.

frozen_string_literal Directive¶ ↑

Indicates that string literals should be allocated once at parse time and frozen.

# frozen_string_literal: true  3.times do   p 'hello'.object_id # => prints same number end p 'world'.frozen? # => true 

The default is false; this can be changed with --enable=frozen-string-literal. Without the directive, or with frozen_string_literal: false, the example above would print 3 different numbers and “false”.

Starting in Ruby 3.0, string literals that are dynamic are not frozen nor reused:

# frozen_string_literal: true  p "Addition: #{2 + 2}".frozen? # => false 

It must appear in the first comment section of a file.

warn_indent Directive¶ ↑

This directive can turn on detection of bad indentation for statements that follow it:

def foo   end # => no warning  # warn_indent: true def bar   end # => warning: mismatched indentations at 'end' with 'def' at 6 

Another way to get these warnings to show is by running Ruby with warnings (ruby -w). Using a directive to set this false will prevent these warnings to show.

shareable_constant_value Directive¶ ↑

Note: This directive is experimental in Ruby 3.0 and may change in future releases.

This special directive helps to create constants that hold only immutable objects, or Ractor-shareable constants.

The directive can specify special treatment for values assigned to constants:

• none: (default)

• literal: literals are implicitly frozen, others must be Ractor-shareable

• experimental_everything: all made shareable

• experimental_copy: copy deeply and make it shareable

Mode none (default)¶ ↑

No special treatment in this mode (as in Ruby 2.x): no automatic freezing and no checks.

It has always been a good idea to deep-freeze constants; Ractor makes this an even better idea as only the main ractor can access non-shareable constants:

# shareable_constant_value: none A = {foo: []} A.frozen? # => false Ractor.new { puts A } # => can not access non-shareable objects by non-main Ractor. 

Mode literal¶ ↑

In “literal” mode, constants assigned to literals will be deeply-frozen:

# shareable_constant_value: literal X = [{foo: []}] # => same as [{foo: [].freeze}.freeze].freeze 

Other values must be shareable:

# shareable_constant_value: literal X = Object.new # => cannot assign unshareable object to X 

Note that only literals directly assigned to constants, or recursively held in such literals will be frozen:

# shareable_constant_value: literal var = [{foo: []}] var.frozen? # => false (assignment was made to local variable) X = var # => cannot assign unshareable object to X  X = Set[1, 2, {foo: []}].freeze # => cannot assign unshareable object to X                                 # (`Set[...]` is not a literal and                                 # `{foo: []}` is an argument to `Set.[]`) 

The method Module#const_set is not affected.

Mode experimental_everything¶ ↑

In this mode, all values assigned to constants are made shareable.

# shareable_constant_value: experimental_everything FOO = Set[1, 2, {foo: []}] # same as FOO = Ractor.make_sharable(...) # OR same as `FOO = Set[1, 2, {foo: [].freeze}.freeze].freeze`  var = [{foo: []}] var.frozen? # => false (assignment was made to local variable) X = var # => calls `Ractor.make_shareable(var)` var.frozen? # => true 

This mode is “experimental”, because it might be error prone, for example by deep-freezing the constants of an external resource which could cause errors:

# shareable_constant_value: experimental_everything FOO = SomeGem::Something::FOO # => deep freezes the gem's constant! 

This will be revisited before Ruby 3.1 to either allow ‘everything` or to instead remove this mode.

The method Module#const_set is not affected.

Mode experimental_copy¶ ↑

In this mode, all values assigned to constants are deeply copied and made shareable. It is safer mode than experimental_everything.

# shareable_constant_value: experimental_copy var = [{foo: []}] var.frozen? # => false (assignment was made to local variable) X = var # => calls `Ractor.make_shareable(var, copy: true)` var.frozen? # => false Ractor.shareable?(X) #=> true var.object_id == X.object_id #=> false 

This mode is “experimental” and has not been discussed thoroughly. This will be revisited before Ruby 3.1 to either allow ‘copy` or to instead remove this mode.

The method Module#const_set is not affected.

Scope¶ ↑

This directive can be used multiple times in the same file:

# shareable_constant_value: none A = {foo: []} A.frozen? # => false Ractor.new { puts A } # => can not access non-shareable objects by non-main Ractor.  # shareable_constant_value: literal B = {foo: []} B.frozen? # => true B[:foo].frozen? # => true  C = [Object.new] # => cannot assign unshareable object to C (Ractor::IsolationError)  D = [Object.new.freeze] D.frozen? # => true  # shareable_constant_value: experimental_everything E = Set[1, 2, Object.new] E.frozen? # => true E.all(&:frozen?) # => true 

The directive affects only subsequent constants and only for the current scope:

module Mod   # shareable_constant_value: literal   A = [1, 2, 3]   module Sub     B = [4, 5]   end end  C = [4, 5]  module Mod   D = [6] end p Mod::A.frozen?, Mod::Sub::B.frozen? # => true, true p C.frozen?, Mod::D.frozen? # => false, false