require 'rspec/support' RSpec::Support.define_optimized_require_for_rspec(:matchers) { |f| require_relative(f) } %w[ pretty composable built_in generated_descriptions dsl matcher_delegator aliased_matcher ].each { |file| RSpec::Support.require_rspec_matchers(file) } # RSpec's top level namespace. All of rspec-expectations is contained # in the `RSpec::Expectations` and `RSpec::Matchers` namespaces. module RSpec # RSpec::Matchers provides a number of useful matchers we use to define # expectations. A matcher is any object that responds to the following: # # matches?(actual) # failure_message # # These methods are also part of the matcher protocol, but are optional: # # does_not_match?(actual) # failure_message_when_negated # description # supports_block_expectations? # # ## Predicates # # In addition to matchers that are defined explicitly, RSpec will create # custom matchers on the fly for any arbitrary predicate, giving your specs a # much more natural language feel. # # A Ruby predicate is a method that ends with a "?" and returns true or false. # Common examples are `empty?`, `nil?`, and `instance_of?`. # # All you need to do is write `expect(..).to be_` followed by the predicate # without the question mark, and RSpec will figure it out from there. # For example: # # expect([]).to be_empty # => [].empty?() | passes # expect([]).not_to be_empty # => [].empty?() | fails # # In addtion to prefixing the predicate matchers with "be_", you can also use "be_a_" # and "be_an_", making your specs read much more naturally: # # expect("a string").to be_an_instance_of(String) # =>"a string".instance_of?(String) # passes # # expect(3).to be_a_kind_of(Fixnum) # => 3.kind_of?(Numeric) | passes # expect(3).to be_a_kind_of(Numeric) # => 3.kind_of?(Numeric) | passes # expect(3).to be_an_instance_of(Fixnum) # => 3.instance_of?(Fixnum) | passes # expect(3).not_to be_an_instance_of(Numeric) # => 3.instance_of?(Numeric) | fails # # RSpec will also create custom matchers for predicates like `has_key?`. To # use this feature, just state that the object should have_key(:key) and RSpec will # call has_key?(:key) on the target. For example: # # expect(:a => "A").to have_key(:a) # expect(:a => "A").to have_key(:b) # fails # # You can use this feature to invoke any predicate that begins with "has_", whether it is # part of the Ruby libraries (like `Hash#has_key?`) or a method you wrote on your own class. # # Note that RSpec does not provide composable aliases for these dynamic predicate # matchers. You can easily define your own aliases, though: # # RSpec::Matchers.alias_matcher :a_user_who_is_an_admin, :be_an_admin # expect(user_list).to include(a_user_who_is_an_admin) # # ## Custom Matchers # # When you find that none of the stock matchers provide a natural feeling # expectation, you can very easily write your own using RSpec's matcher DSL # or writing one from scratch. # # ### Matcher DSL # # Imagine that you are writing a game in which players can be in various # zones on a virtual board. To specify that bob should be in zone 4, you # could say: # # expect(bob.current_zone).to eql(Zone.new("4")) # # But you might find it more expressive to say: # # expect(bob).to be_in_zone("4") # # and/or # # expect(bob).not_to be_in_zone("3") # # You can create such a matcher like so: # # RSpec::Matchers.define :be_in_zone do |zone| # match do |player| # player.in_zone?(zone) # end # end # # This will generate a be_in_zone method that returns a matcher # with logical default messages for failures. You can override the failure # messages and the generated description as follows: # # RSpec::Matchers.define :be_in_zone do |zone| # match do |player| # player.in_zone?(zone) # end # # failure_message do |player| # # generate and return the appropriate string. # end # # failure_message_when_negated do |player| # # generate and return the appropriate string. # end # # description do # # generate and return the appropriate string. # end # end # # Each of the message-generation methods has access to the block arguments # passed to the create method (in this case, zone). The # failure message methods (failure_message and # failure_message_when_negated) are passed the actual value (the # receiver of expect(..) or expect(..).not_to). # # ### Custom Matcher from scratch # # You could also write a custom matcher from scratch, as follows: # # class BeInZone # def initialize(expected) # @expected = expected # end # # def matches?(target) # @target = target # @target.current_zone.eql?(Zone.new(@expected)) # end # # def failure_message # "expected #{@target.inspect} to be in Zone #{@expected}" # end # # def failure_message_when_negated # "expected #{@target.inspect} not to be in Zone #{@expected}" # end # end # # ... and a method like this: # # def be_in_zone(expected) # BeInZone.new(expected) # end # # And then expose the method to your specs. This is normally done # by including the method and the class in a module, which is then # included in your spec: # # module CustomGameMatchers # class BeInZone # # ... # end # # def be_in_zone(expected) # # ... # end # end # # describe "Player behaviour" do # include CustomGameMatchers # # ... # end # # or you can include in globally in a spec_helper.rb file required # from your spec file(s): # # RSpec::configure do |config| # config.include(CustomGameMatchers) # end # # ### Making custom matchers composable # # RSpec's built-in matchers are designed to be composed, in expressions like: # # expect(["barn", 2.45]).to contain_exactly( # a_value_within(0.1).of(2.5), # a_string_starting_with("bar") # ) # # Custom matchers can easily participate in composed matcher expressions like these. # Include {RSpec::Matchers::Composable} in your custom matcher to make it support # being composed (matchers defined using the DSL have this included automatically). # Within your matcher's `matches?` method (or the `match` block, if using the DSL), # use `values_match?(expected, actual)` rather than `expected == actual`. # Under the covers, `values_match?` is able to match arbitrary # nested data structures containing a mix of both matchers and non-matcher objects. # It uses `===` and `==` to perform the matching, considering the values to # match if either returns `true`. The `Composable` mixin also provides some helper # methods for surfacing the matcher descriptions within your matcher's description # or failure messages. # # RSpec's built-in matchers each have a number of aliases that rephrase the matcher # from a verb phrase (such as `be_within`) to a noun phrase (such as `a_value_within`), # which reads better when the matcher is passed as an argument in a composed matcher # expressions, and also uses the noun-phrase wording in the matcher's `description`, # for readable failure messages. You can alias your custom matchers in similar fashion # using {RSpec::Matchers.alias_matcher}. module Matchers # @method expect # Supports `expect(actual).to matcher` syntax by wrapping `actual` in an # `ExpectationTarget`. # @example # expect(actual).to eq(expected) # expect(actual).not_to eq(expected) # @return [ExpectationTarget] # @see ExpectationTarget#to # @see ExpectationTarget#not_to # Defines a matcher alias. The returned matcher's `description` will be overriden # to reflect the phrasing of the new name, which will be used in failure messages # when passed as an argument to another matcher in a composed matcher expression. # # @param new_name [Symbol] the new name for the matcher # @param old_name [Symbol] the original name for the matcher # @yield [String] optional block that, when given is used to define the overriden # description. The yielded arg is the original description. If no block is # provided, a default description override is used based on the old and # new names. # # @example # # RSpec::Matchers.alias_matcher :a_list_that_sums_to, :sum_to # sum_to(3).description # => "sum to 3" # a_list_that_sums_to(3).description # => "a list that sums to 3" # # @example # # RSpec::Matchers.alias_matcher :a_list_sorted_by, :be_sorted_by do |description| # description.sub("be sorted by", "a list sorted by") # end # # be_sorted_by(:age).description # => "be sorted by age" # a_list_sorted_by(:age).description # => "a list sorted by age" # # @!macro [attach] alias_matcher # @!parse # alias $1 $2 def self.alias_matcher(new_name, old_name, &description_override) description_override ||= lambda do |old_desc| old_desc.gsub(Pretty.split_words(old_name), Pretty.split_words(new_name)) end define_method(new_name) do |*args, &block| matcher = __send__(old_name, *args, &block) AliasedMatcher.new(matcher, description_override) end end # Passes if actual is truthy (anything but false or nil) def be_truthy BuiltIn::BeTruthy.new end alias_matcher :a_truthy_value, :be_truthy # Passes if actual is falsey (false or nil) def be_falsey BuiltIn::BeFalsey.new end alias_matcher :be_falsy, :be_falsey alias_matcher :a_falsey_value, :be_falsey alias_matcher :a_falsy_value, :be_falsey # Passes if actual is nil def be_nil BuiltIn::BeNil.new end alias_matcher :a_nil_value, :be_nil # @example # expect(actual).to be_truthy # expect(actual).to be_falsey # expect(actual).to be_nil # expect(actual).to be_[arbitrary_predicate](*args) # expect(actual).not_to be_nil # expect(actual).not_to be_[arbitrary_predicate](*args) # # Given true, false, or nil, will pass if actual value is true, false or # nil (respectively). Given no args means the caller should satisfy an if # condition (to be or not to be). # # Predicates are any Ruby method that ends in a "?" and returns true or # false. Given be_ followed by arbitrary_predicate (without the "?"), # RSpec will match convert that into a query against the target object. # # The arbitrary_predicate feature will handle any predicate prefixed with # "be_an_" (e.g. be_an_instance_of), "be_a_" (e.g. be_a_kind_of) or "be_" # (e.g. be_empty), letting you choose the prefix that best suits the # predicate. def be(*args) args.empty? ? Matchers::BuiltIn::Be.new : equal(*args) end alias_matcher :a_value, :be # passes if target.kind_of?(klass) def be_a(klass) be_a_kind_of(klass) end alias_method :be_an, :be_a # Passes if actual.instance_of?(expected) # # @example # # expect(5).to be_an_instance_of(Fixnum) # expect(5).not_to be_an_instance_of(Numeric) # expect(5).not_to be_an_instance_of(Float) def be_an_instance_of(expected) BuiltIn::BeAnInstanceOf.new(expected) end alias_method :be_instance_of, :be_an_instance_of alias_matcher :an_instance_of, :be_an_instance_of # Passes if actual.kind_of?(expected) # # @example # # expect(5).to be_a_kind_of(Fixnum) # expect(5).to be_a_kind_of(Numeric) # expect(5).not_to be_a_kind_of(Float) def be_a_kind_of(expected) BuiltIn::BeAKindOf.new(expected) end alias_method :be_kind_of, :be_a_kind_of alias_matcher :a_kind_of, :be_a_kind_of # Passes if actual.between?(min, max). Works with any Comparable object, # including String, Symbol, Time, or Numeric (Fixnum, Bignum, Integer, # Float, Complex, and Rational). # # By default, `be_between` is inclusive (i.e. passes when given either the max or min value), # but you can make it `exclusive` by chaining that off the matcher. # # @example # # expect(5).to be_between(1, 10) # expect(11).not_to be_between(1, 10) # expect(10).not_to be_between(1, 10).exclusive def be_between(min, max) BuiltIn::BeBetween.new(min, max) end alias_matcher :a_value_between, :be_between # Passes if actual == expected +/- delta # # @example # # expect(result).to be_within(0.5).of(3.0) # expect(result).not_to be_within(0.5).of(3.0) def be_within(delta) BuiltIn::BeWithin.new(delta) end alias_matcher :a_value_within, :be_within alias_matcher :within, :be_within # Applied to a proc, specifies that its execution will cause some value to # change. # # @param [Object] receiver # @param [Symbol] message the message to send the receiver # # You can either pass receiver and message, or a block, # but not both. # # When passing a block, it must use the `{ ... }` format, not # do/end, as `{ ... }` binds to the `change` method, whereas do/end # would errantly bind to the `expect(..).to` or `expect(...).not_to` method. # # You can chain any of the following off of the end to specify details # about the change: # # * `by` # * `by_at_least` # * `by_at_most` # * `from` # * `to` # # @example # # expect { # team.add_player(player) # }.to change(roster, :count) # # expect { # team.add_player(player) # }.to change(roster, :count).by(1) # # expect { # team.add_player(player) # }.to change(roster, :count).by_at_least(1) # # expect { # team.add_player(player) # }.to change(roster, :count).by_at_most(1) # # string = "string" # expect { # string.reverse! # }.to change { string }.from("string").to("gnirts") # # string = "string" # expect { # string # }.not_to change { string }.from("string") # # expect { # person.happy_birthday # }.to change(person, :birthday).from(32).to(33) # # expect { # employee.develop_great_new_social_networking_app # }.to change(employee, :title).from("Mail Clerk").to("CEO") # # expect { # doctor.leave_office # }.to change(doctor, :sign).from(/is in/).to(/is out/) # # user = User.new(:type => "admin") # expect { # user.symbolize_type # }.to change(user, :type).from(String).to(Symbol) # # == Notes # # Evaluates `receiver.message` or `block` before and after it # evaluates the block passed to `expect`. # # `expect( ... ).not_to change` supports the form that specifies `from` # (which specifies what you expect the starting, unchanged value to be) # but does not support forms with subsequent calls to `by`, `by_at_least`, # `by_at_most` or `to`. def change(receiver=nil, message=nil, &block) BuiltIn::Change.new(receiver, message, &block) end alias_matcher :a_block_changing, :change alias_matcher :changing, :change # Passes if actual contains all of the expected regardless of order. # This works for collections. Pass in multiple args and it will only # pass if all args are found in collection. # # @note This is also available using the `=~` operator with `should`, # but `=~` is not supported with `expect`. # # @note This matcher only supports positive expectations. # `expect(...).not_to contain_exactly(other_array)` is not supported. # # @example # # expect([1, 2, 3]).to contain_exactly(1, 2, 3) # expect([1, 2, 3]).to contain_exactly(1, 3, 2) # # @see #match_array def contain_exactly(*items) BuiltIn::ContainExactly.new(items) end alias_matcher :a_collection_containing_exactly, :contain_exactly alias_matcher :containing_exactly, :contain_exactly # Passes if actual covers expected. This works for # Ranges. You can also pass in multiple args # and it will only pass if all args are found in Range. # # @example # expect(1..10).to cover(5) # expect(1..10).to cover(4, 6) # expect(1..10).to cover(4, 6, 11) # fails # expect(1..10).not_to cover(11) # expect(1..10).not_to cover(5) # fails # # ### Warning:: Ruby >= 1.9 only def cover(*values) BuiltIn::Cover.new(*values) end alias_matcher :a_range_covering, :cover alias_matcher :covering, :cover # Matches if the actual value ends with the expected value(s). In the case # of a string, matches against the last `expected.length` characters of the # actual string. In the case of an array, matches against the last # `expected.length` elements of the actual array. # # @example # # expect("this string").to end_with "string" # expect([0, 1, 2, 3, 4]).to end_with 4 # expect([0, 2, 3, 4, 4]).to end_with 3, 4 def end_with(*expected) BuiltIn::EndWith.new(*expected) end alias_matcher :a_collection_ending_with, :end_with alias_matcher :a_string_ending_with, :end_with alias_matcher :ending_with, :end_with # Passes if actual == expected. # # See http://www.ruby-doc.org/core/classes/Object.html#M001057 for more # information about equality in Ruby. # # @example # # expect(5).to eq(5) # expect(5).not_to eq(3) def eq(expected) BuiltIn::Eq.new(expected) end alias_matcher :an_object_eq_to, :eq alias_matcher :eq_to, :eq # Passes if `actual.eql?(expected)` # # See http://www.ruby-doc.org/core/classes/Object.html#M001057 for more # information about equality in Ruby. # # @example # # expect(5).to eql(5) # expect(5).not_to eql(3) def eql(expected) BuiltIn::Eql.new(expected) end alias_matcher :an_object_eql_to, :eql alias_matcher :eql_to, :eql # Passes if actual.equal?(expected) (object identity). # # See http://www.ruby-doc.org/core/classes/Object.html#M001057 for more # information about equality in Ruby. # # @example # # expect(5).to equal(5) # Fixnums are equal # expect("5").not_to equal("5") # Strings that look the same are not the same object def equal(expected) BuiltIn::Equal.new(expected) end alias_matcher :an_object_equal_to, :equal alias_matcher :equal_to, :equal # Passes if `actual.exist?` or `actual.exists?` # # @example # expect(File).to exist("path/to/file") def exist(*args) BuiltIn::Exist.new(*args) end alias_matcher :an_object_existing, :exist alias_matcher :existing, :exist # Passes if actual includes expected. This works for # collections and Strings. You can also pass in multiple args # and it will only pass if all args are found in collection. # # @example # # expect([1,2,3]).to include(3) # expect([1,2,3]).to include(2,3) # expect([1,2,3]).to include(2,3,4) # fails # expect([1,2,3]).not_to include(4) # expect("spread").to include("read") # expect("spread").not_to include("red") def include(*expected) BuiltIn::Include.new(*expected) end alias_matcher :a_collection_including, :include alias_matcher :a_string_including, :include alias_matcher :a_hash_including, :include alias_matcher :including, :include # Passes if actual all expected objects pass. This works for # any enumerable object. # # @example # # expect([1, 3, 5]).to all be_odd # expect([1, 3, 6]).to all be_odd # fails # # @note The negative form `not_to all` is not supported. Instead # use `not_to include` or pass a negative form of a matcher # as the argument (e.g. `all exclude(:foo)`). # # @note You can also use this with compound matchers as well. # # @example # expect([1, 3, 5]).to all( be_odd.and be_an(Integer) ) def all(expected) BuiltIn::All.new(expected) end # Given a `Regexp` or `String`, passes if `actual.match(pattern)` # Given an arbitrary nested data structure (e.g. arrays and hashes), # matches if `expected === actual` || `actual == expected` for each # pair of elements. # # @example # # expect(email).to match(/^([^\s]+)((?:[-a-z0-9]+\.)+[a-z]{2,})$/i) # expect(email).to match("@example.com") # # @example # # hash = { # :a => { # :b => ["foo", 5], # :c => { :d => 2.05 } # } # } # # expect(hash).to match( # :a => { # :b => a_collection_containing_exactly( # a_string_starting_with("f"), # an_instance_of(Fixnum) # ), # :c => { :d => (a_value < 3) } # } # ) # # @note The `match_regex` alias is deprecated and is not recommended for use. # It was added in 2.12.1 to facilitate its use from within custom # matchers (due to how the custom matcher DSL was evaluated in 2.x, # `match` could not be used there), but is no longer needed in 3.x. def match(expected) BuiltIn::Match.new(expected) end alias_matcher :match_regex, :match alias_matcher :an_object_matching, :match alias_matcher :a_string_matching, :match alias_matcher :matching, :match # An alternate form of `contain_exactly` that accepts # the expected contents as a single array arg rather # that splatted out as individual items. # # @example # # expect(results).to contain_exactly(1, 2) # # is identical to: # expect(results).to match_array([1, 2]) # # @see #contain_exactly def match_array(items) contain_exactly(*items) end # With no arg, passes if the block outputs `to_stdout` or `to_stderr`. # With a string, passes if the blocks outputs that specific string `to_stdout` or `to_stderr`. # With a regexp or matcher, passes if the blocks outputs a string `to_stdout` or `to_stderr` that matches. # # @example # # expect { print 'foo' }.to output.to_stdout # expect { print 'foo' }.to output('foo').to_stdout # expect { print 'foo' }.to output(/foo/).to_stdout # # expect { do_something }.to_not output.to_stdout # # expect { warn('foo') }.to output.to_stderr # expect { warn('foo') }.to output('foo').to_stderr # expect { warn('foo') }.to output(/foo/).to_stderr # # expect { do_something }.to_not output.to_stderr # # @note This matcher works by temporarily replacing `$stdout` or `$stderr`, # so it's not able to intercept stream output that explicitly uses `STDOUT`/`STDERR` # or that uses a reference to `$stdout`/`$stderr` that was stored before the # matcher is used. def output(expected=nil) BuiltIn::Output.new(expected) end alias_matcher :a_block_outputting, :output # With no args, matches if any error is raised. # With a named error, matches only if that specific error is raised. # With a named error and messsage specified as a String, matches only if both match. # With a named error and messsage specified as a Regexp, matches only if both match. # Pass an optional block to perform extra verifications on the exception matched # # @example # # expect { do_something_risky }.to raise_error # expect { do_something_risky }.to raise_error(PoorRiskDecisionError) # expect { do_something_risky }.to raise_error(PoorRiskDecisionError) { |error| expect(error.data).to eq 42 } # expect { do_something_risky }.to raise_error(PoorRiskDecisionError, "that was too risky") # expect { do_something_risky }.to raise_error(PoorRiskDecisionError, /oo ri/) # # expect { do_something_risky }.not_to raise_error def raise_error(error=Exception, message=nil, &block) BuiltIn::RaiseError.new(error, message, &block) end alias_method :raise_exception, :raise_error alias_matcher :a_block_raising, :raise_error do |desc| desc.sub("raise", "a block raising") end alias_matcher :raising, :raise_error do |desc| desc.sub("raise", "raising") end # Matches if the target object responds to all of the names # provided. Names can be Strings or Symbols. # # @example # # expect("string").to respond_to(:length) # def respond_to(*names) BuiltIn::RespondTo.new(*names) end alias_matcher :an_object_responding_to, :respond_to alias_matcher :responding_to, :respond_to # Passes if the submitted block returns true. Yields target to the # block. # # Generally speaking, this should be thought of as a last resort when # you can't find any other way to specify the behaviour you wish to # specify. # # If you do find yourself in such a situation, you could always write # a custom matcher, which would likely make your specs more expressive. # # @example # # expect(5).to satisfy { |n| n > 3 } def satisfy(&block) BuiltIn::Satisfy.new(&block) end alias_matcher :an_object_satisfying, :satisfy alias_matcher :satisfying, :satisfy # Matches if the actual value starts with the expected value(s). In the # case of a string, matches against the first `expected.length` characters # of the actual string. In the case of an array, matches against the first # `expected.length` elements of the actual array. # # @example # # expect("this string").to start_with "this s" # expect([0, 1, 2, 3, 4]).to start_with 0 # expect([0, 2, 3, 4, 4]).to start_with 0, 1 def start_with(*expected) BuiltIn::StartWith.new(*expected) end alias_matcher :a_collection_starting_with, :start_with alias_matcher :a_string_starting_with, :start_with alias_matcher :starting_with, :start_with # Given no argument, matches if a proc throws any Symbol. # # Given a Symbol, matches if the given proc throws the specified Symbol. # # Given a Symbol and an arg, matches if the given proc throws the # specified Symbol with the specified arg. # # @example # # expect { do_something_risky }.to throw_symbol # expect { do_something_risky }.to throw_symbol(:that_was_risky) # expect { do_something_risky }.to throw_symbol(:that_was_risky, 'culprit') # # expect { do_something_risky }.not_to throw_symbol # expect { do_something_risky }.not_to throw_symbol(:that_was_risky) # expect { do_something_risky }.not_to throw_symbol(:that_was_risky, 'culprit') def throw_symbol(expected_symbol=nil, expected_arg=nil) BuiltIn::ThrowSymbol.new(expected_symbol, expected_arg) end alias_matcher :a_block_throwing, :throw_symbol do |desc| desc.sub("throw", "a block throwing") end alias_matcher :throwing, :throw_symbol do |desc| desc.sub("throw", "throwing") end # Passes if the method called in the expect block yields, regardless # of whether or not arguments are yielded. # # @example # # expect { |b| 5.tap(&b) }.to yield_control # expect { |b| "a".to_sym(&b) }.not_to yield_control # # @note Your expect block must accept a parameter and pass it on to # the method-under-test as a block. # @note This matcher is not designed for use with methods that yield # multiple times. def yield_control BuiltIn::YieldControl.new end alias_matcher :a_block_yielding_control, :yield_control alias_matcher :yielding_control, :yield_control # Passes if the method called in the expect block yields with # no arguments. Fails if it does not yield, or yields with arguments. # # @example # # expect { |b| User.transaction(&b) }.to yield_with_no_args # expect { |b| 5.tap(&b) }.not_to yield_with_no_args # because it yields with `5` # expect { |b| "a".to_sym(&b) }.not_to yield_with_no_args # because it does not yield # # @note Your expect block must accept a parameter and pass it on to # the method-under-test as a block. # @note This matcher is not designed for use with methods that yield # multiple times. def yield_with_no_args BuiltIn::YieldWithNoArgs.new end alias_matcher :a_block_yielding_with_no_args, :yield_with_no_args alias_matcher :yielding_with_no_args, :yield_with_no_args # Given no arguments, matches if the method called in the expect # block yields with arguments (regardless of what they are or how # many there are). # # Given arguments, matches if the method called in the expect block # yields with arguments that match the given arguments. # # Argument matching is done using `===` (the case match operator) # and `==`. If the expected and actual arguments match with either # operator, the matcher will pass. # # @example # # expect { |b| 5.tap(&b) }.to yield_with_args # because #tap yields an arg # expect { |b| 5.tap(&b) }.to yield_with_args(5) # because 5 == 5 # expect { |b| 5.tap(&b) }.to yield_with_args(Fixnum) # because Fixnum === 5 # expect { |b| File.open("f.txt", &b) }.to yield_with_args(/txt/) # because /txt/ === "f.txt" # # expect { |b| User.transaction(&b) }.not_to yield_with_args # because it yields no args # expect { |b| 5.tap(&b) }.not_to yield_with_args(1, 2, 3) # # @note Your expect block must accept a parameter and pass it on to # the method-under-test as a block. # @note This matcher is not designed for use with methods that yield # multiple times. def yield_with_args(*args) BuiltIn::YieldWithArgs.new(*args) end alias_matcher :a_block_yielding_with_args, :yield_with_args alias_matcher :yielding_with_args, :yield_with_args # Designed for use with methods that repeatedly yield (such as # iterators). Passes if the method called in the expect block yields # multiple times with arguments matching those given. # # Argument matching is done using `===` (the case match operator) # and `==`. If the expected and actual arguments match with either # operator, the matcher will pass. # # @example # # expect { |b| [1, 2, 3].each(&b) }.to yield_successive_args(1, 2, 3) # expect { |b| { :a => 1, :b => 2 }.each(&b) }.to yield_successive_args([:a, 1], [:b, 2]) # expect { |b| [1, 2, 3].each(&b) }.not_to yield_successive_args(1, 2) # # @note Your expect block must accept a parameter and pass it on to # the method-under-test as a block. def yield_successive_args(*args) BuiltIn::YieldSuccessiveArgs.new(*args) end alias_matcher :a_block_yielding_successive_args, :yield_successive_args alias_matcher :yielding_successive_args, :yield_successive_args # Delegates to {RSpec::Expectations.configuration}. # This is here because rspec-core's `expect_with` option # looks for a `configuration` method on the mixin # (`RSpec::Matchers`) to yield to a block. # @return [RSpec::Expectations::Configuration] the configuration object def self.configuration Expectations.configuration end private BE_PREDICATE_REGEX = /^(be_(?:an?_)?)(.*)/ HAS_REGEX = /^(?:have_)(.*)/ def method_missing(method, *args, &block) case method.to_s when BE_PREDICATE_REGEX BuiltIn::BePredicate.new(method, *args, &block) when HAS_REGEX BuiltIn::Has.new(method, *args, &block) else super end end # @api private def self.is_a_matcher?(obj) return true if ::RSpec::Matchers::BuiltIn::BaseMatcher === obj return false if obj.respond_to?(:i_respond_to_everything_so_im_not_really_a_matcher) return false unless obj.respond_to?(:matches?) obj.respond_to?(:failure_message) || obj.respond_to?(:failure_message_for_should) # support legacy matchers end # @api private def self.is_a_describable_matcher?(obj) is_a_matcher?(obj) && obj.respond_to?(:description) end end end