What's the best way to unit test protected and private methods in Ruby, using the standard Ruby Test::Unit framework?

I'm sure somebody will pipe up and dogmatically assert that "you should only unit test public methods; if it needs unit testing, it shouldn't be a protected or private method", but I'm not really interested in debating that. I've got several methods that are protected or private for good and valid reasons, these private/protected methods are moderately complex, and the public methods in the class depend upon these protected/private methods functioning correctly, therefore I need a way to test the protected/private methods.

One more thing... I generally put all the methods for a given class in one file, and the unit tests for that class in another file. Ideally, I'd like all the magic to implement this "unit test of protected and private methods" functionality into the unit test file, not the main source file, in order to keep the main source file as simple and straightforward as possible.


16 Answers 16


You can bypass encapsulation with the send method:

myobject.send(:method_name, args)

This is a 'feature' of Ruby. :)

There was internal debate during Ruby 1.9 development which considered having send respect privacy and send! ignore it, but in the end nothing changed in Ruby 1.9. Ignore the comments below discussing send! and breaking things.

  • i think this usage was revoked in 1.9
    – Gene T
    Nov 6, 2008 at 3:45
  • 6
    I doubt they would revoke it, as they'd instantly break an enormous number of ruby projects Nov 10, 2008 at 0:00
  • 1
    ruby 1.9 does break just about everything.
    – jes5199
    Nov 15, 2008 at 22:37
  • 1
    Just to note: Never mind the send! thing, it was revoked long ago, send/__send__ can call methods of all visibility - redmine.ruby-lang.org/repositories/revision/1?rev=13824 May 18, 2010 at 5:41
  • 2
    There's public_send (documentation here) if you want to respect privacy. I think that's new to Ruby 1.9. Jan 5, 2011 at 22:39

Here's one easy way if you use RSpec:

before(:each) do
  MyClass.send(:public, *MyClass.protected_instance_methods)  
  • 9
    Yes, that's great. For private methods, use ...private_instance_methods rather than protected_instance_methods
    – Mike Blyth
    Mar 8, 2011 at 13:26
  • 12
    Important caveat: this makes the methods on this class public for the remainder of your test suite execution, which can have unexpected side effects! You may want to redefine the methods as protected again in an after(:each) block or suffer spooky test failures in the future.
    – Pathogen
    Oct 27, 2015 at 19:15
  • this is horrible and brilliant at the same time
    – Robert
    Jan 12, 2018 at 14:49
  • I've never seen this before and I can attest that it works fantastically. Yes it is both horrible and brilliant but as long as you scope it at the level of the method you are testing, I would argue that you won't have the unexpected side effects that Pathogen alludes to.
    – fuzzygroup
    Apr 29, 2019 at 19:30

Just reopen the class in your test file, and redefine the method or methods as public. You don't have to redefine the guts of the method itself, just pass the symbol into the public call.

If you original class is defined like this:

class MyClass


  def foo

In you test file, just do something like this:

class MyClass
  public :foo


You can pass multiple symbols to public if you want to expose more private methods.

public :foo, :bar
  • 3
    This is my preferred approach as it leaves your code untouched and simply adjusts the privacy for the specific test. Don't forget to put things back the way they were after your tests have run or you might corrupt later tests.
    – ktec
    Oct 16, 2012 at 13:48

instance_eval() might help:

--------------------------------------------------- Object#instance_eval
     obj.instance_eval(string [, filename [, lineno]] )   => obj
     obj.instance_eval {| | block }                       => obj
     Evaluates a string containing Ruby source code, or the given 
     block, within the context of the receiver (obj). In order to set 
     the context, the variable self is set to obj while the code is 
     executing, giving the code access to obj's instance variables. In 
     the version of instance_eval that takes a String, the optional 
     second and third parameters supply a filename and starting line 
     number that are used when reporting compilation errors.

        class Klass
          def initialize
            @secret = 99
        k = Klass.new
        k.instance_eval { @secret }   #=> 99

You can use it to access private methods and instance variables directly.

You could also consider using send(), which will also give you access to private and protected methods (like James Baker suggested)

Alternatively, you could modify the metaclass of your test object to make the private/protected methods public just for that object.

    test_obj.a_private_method(...) #=> raises NoMethodError
    test_obj.a_protected_method(...) #=> raises NoMethodError
    class << test_obj
        public :a_private_method, :a_protected_method
    test_obj.a_private_method(...) # executes
    test_obj.a_protected_method(...) # executes

    other_test_obj = test.obj.class.new
    other_test_obj.a_private_method(...) #=> raises NoMethodError
    other_test_obj.a_protected_method(...) #=> raises NoMethodError

This will let you call these methods without affecting other objects of that class. You could reopen the class within your test directory and make them public for all the instances within your test code, but that might affect your test of the public interface.


One way I've done it in the past is:

class foo
  def public_method

private unless 'test' == Rails.env

  def private_method

I'm sure somebody will pipe up and dogmatically assert that "you should only unit test public methods; if it needs unit testing, it shouldn't be a protected or private method", but I'm not really interested in debating that.

You could also refactor those into a new object in which those methods are public, and delegate to them privately in the original class. This will allow you to test the methods without magic metaruby in your specs while yet keeping them private.

I've got several methods that are protected or private for good and valid reasons

What are those valid reasons? Other OOP languages can get away without private methods at all (smalltalk comes to mind - where private methods only exist as a convention).

  • Yes, but most Smalltalkers didn't think that was a good feature of the language.
    – aenw
    Dec 23, 2017 at 2:31

Similar to @WillSargent's response, here's what I've used in a describe block for the special case of testing some protected validators without needing to go through the heavyweight process of creating/updating them with FactoryGirl (and you could use private_instance_methods similarly):

  describe "protected custom `validates` methods" do
    # Test these methods directly to avoid needing FactoryGirl.create
    # to trigger before_create, etc.
    before(:all) do
      @protected_methods = MyClass.protected_instance_methods
      MyClass.send(:public, *@protected_methods)
    after(:all) do
      MyClass.send(:protected, *@protected_methods)
      @protected_methods = nil

    # ...do some tests...
  • Is there a similar approach with minitest and not rspec?
    – KargWare
    Oct 12, 2022 at 6:02

To make public all protected and private method for the described class, you can add the following to your spec_helper.rb and not having to touch any of your spec files.

RSpec.configure do |config|
  config.before(:each) do
    described_class.send(:public, *described_class.protected_instance_methods)
    described_class.send(:public, *described_class.private_instance_methods)

You can "reopen" the class and provide a new method that delegates to the private one:

class Foo
  def bar; puts "Oi! how did you reach me??"; end
# and then
class Foo
  def ah_hah; bar; end
# then

I would probably lean toward using instance_eval(). Before I knew about instance_eval(), however, I would create a derived class in my unit test file. I would then set the private method(s) to be public.

In the example below, the build_year_range method is private in the PublicationSearch::ISIQuery class. Deriving a new class just for testing purposes allows me to set a method(s) to be public and, therefore, directly testable. Likewise, the derived class exposes an instance variable called 'result' that was previously not exposed.

# A derived class useful for testing.
class MockISIQuery < PublicationSearch::ISIQuery
    attr_accessor :result
    public :build_year_range

In my unit test I have a test case which instantiates the MockISIQuery class and directly tests the build_year_range() method.


In Test::Unit framework can write,

MyClass.send(:public, :method_name)

Here "method_name" is private method.

& while calling this method can write,

assert_equal expected, MyClass.instance.method_name(params)

Here is a general addition to Class which I use. It's a bit more shotgun than only making public the method you are testing, but in most cases it doesn't matter, and it's much more readable.

class Class
  def publicize_methods
    saved_private_instance_methods = self.private_instance_methods
    self.class_eval { public *saved_private_instance_methods }
      self.class_eval { private *saved_private_instance_methods }

MyClass.publicize_methods do
  assert_equal 10, MyClass.new.secret_private_method

Using send to access protected/private methods is broken in 1.9, so is not a recommended solution.


To correct the top answer above: in Ruby 1.9.1, it's Object#send that sends all the messages, and Object#public_send that respects privacy.

  • 1
    You should add comment to that answer, not writing a new answer to correct another.
    – zishe
    Jun 6, 2014 at 12:16

Instead of obj.send you can use a singleton method. It’s 3 more lines of code in your test class and requires no changes in the actual code to be tested.

def obj.my_private_method_publicly (*args)

In the test cases you then use my_private_method_publicly whenever you want to test my_private_method.


obj.send for private methods was replaced by send! in 1.9, but later send! was removed again. So obj.send works perfectly well.


In order to do this:

disrespect_privacy @object do |p|
  assert p.private_method

You can implement this in your test_helper file:

class ActiveSupport::TestCase
  def disrespect_privacy(object_or_class, &block)   # access private methods in a block
    raise ArgumentError, 'Block must be specified' unless block_given?
    yield Disrespect.new(object_or_class)

  class Disrespect
    def initialize(object_or_class)
      @object = object_or_class
    def method_missing(method, *args)
      @object.send(method, *args)
  • Heh I had some fun with this: gist.github.com/amomchilov/ef1c84325fe6bb4ce01e0f0780837a82 Renamed Disrespect to PrivacyViolator (:P) and made the disrespect_privacy method temporarily edit the block's binding, so as to remind the target object to the wrapper object, but only for the duration of the block. That way you don't need to use a block param, you can just continue referencing the object with the same name.
    – Alexander
    Mar 4, 2020 at 21:41

I know I'm late to the party, but don't test private methods....I can't think of a reason to do this. A publicly accessible method is using that private method somewhere, test the public method and the variety of scenarios that would cause that private method to be used. Something goes in, something comes out. Testing private methods is a big no-no, and it makes it much harder to refactor your code later. They are private for a reason.

  • 16
    Still don't understand this position: Yes, private methods are private for a reason, but no, this reason has nothing to do with testing. Jun 26, 2013 at 11:47
  • I wish I could upvote this more. The only correct answer in this thread.
    – Psynix
    Apr 11, 2014 at 1:23
  • 2
    If you have that point of view then why even bother with unit tests? Just write feature specs: input goes in, page comes out, everything in between should be covered right?
    – ohhh
    Jul 29, 2020 at 11:06

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