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# Author:: Nathaniel Talbott. # Copyright:: Copyright (c) 2000-2003 Nathaniel Talbott. All rights reserved. # License:: Ruby license. require 'test/unit/assertionfailederror' require 'test/unit/util/backtracefilter' module Test module Unit ## # Test::Unit::Assertions contains the standard Test::Unit assertions. # Assertions is included in Test::Unit::TestCase. # # To include it in your own code and use its functionality, you simply # need to rescue Test::Unit::AssertionFailedError. Additionally you may # override add_assertion to get notified whenever an assertion is made. # # Notes: # * The message to each assertion, if given, will be propagated with the # failure. # * It is easy to add your own assertions based on assert_block(). # # = Example Custom Assertion # # def deny(boolean, message = nil) # message = build_message message, '<?> is not false or nil.', boolean # assert_block message do # not boolean # end # end module Assertions ## # The assertion upon which all other assertions are based. Passes if the # block yields true. # # Example: # assert_block "Couldn't do the thing" do # do_the_thing # end public def assert_block(message="assert_block failed.") # :yields: _wrap_assertion do if (! yield) raise AssertionFailedError.new(message.to_s) end end end ## # Asserts that +boolean+ is not false or nil. # # Example: # assert [1, 2].include?(5) public def assert(boolean, message=nil) _wrap_assertion do assert_block("assert should not be called with a block.") { !block_given? } assert_block(build_message(message, "<?> is not true.", boolean)) { boolean } end end ## # Passes if +expected+ == +actual. # # Note that the ordering of arguments is important, since a helpful # error message is generated when this one fails that tells you the # values of expected and actual. # # Example: # assert_equal 'MY STRING', 'my string'.upcase public def assert_equal(expected, actual, message=nil) full_message = build_message(message, <<EOT, expected, actual) <?> expected but was <?>. EOT assert_block(full_message) { expected == actual } end private def _check_exception_class(args) # :nodoc: args.partition do |klass| next if klass.instance_of?(Module) assert(Exception >= klass, "Should expect a class of exception, #{klass}") true end end private def _expected_exception?(actual_exception, exceptions, modules) # :nodoc: exceptions.include?(actual_exception.class) or modules.any? {|mod| actual_exception.is_a?(mod)} end ## # Passes if the block raises one of the given exceptions. # # Example: # assert_raise RuntimeError, LoadError do # raise 'Boom!!!' # end public def assert_raise(*args) _wrap_assertion do if Module === args.last message = "" else message = args.pop end exceptions, modules = _check_exception_class(args) expected = args.size == 1 ? args.first : args actual_exception = nil full_message = build_message(message, "<?> exception expected but none was thrown.", expected) assert_block(full_message) do begin yield rescue Exception => actual_exception break end false end full_message = build_message(message, "<?> exception expected but was\n?", expected, actual_exception) assert_block(full_message) {_expected_exception?(actual_exception, exceptions, modules)} actual_exception end end ## # Alias of assert_raise. # # Will be deprecated in 1.9, and removed in 2.0. public def assert_raises(*args, &block) assert_raise(*args, &block) end ## # Passes if +object+ .instance_of? +klass+ # # Example: # assert_instance_of String, 'foo' public def assert_instance_of(klass, object, message="") _wrap_assertion do assert_equal(Class, klass.class, "assert_instance_of takes a Class as its first argument") full_message = build_message(message, <<EOT, object, klass, object.class) <?> expected to be an instance of <?> but was <?>. EOT assert_block(full_message){object.instance_of?(klass)} end end ## # Passes if +object+ is nil. # # Example: # assert_nil [1, 2].uniq! public def assert_nil(object, message="") assert_equal(nil, object, message) end ## # Passes if +object+ .kind_of? +klass+ # # Example: # assert_kind_of Object, 'foo' public def assert_kind_of(klass, object, message="") _wrap_assertion do assert(klass.kind_of?(Module), "The first parameter to assert_kind_of should be a kind_of Module.") full_message = build_message(message, "<?>\nexpected to be kind_of\\?\n<?> but was\n<?>.", object, klass, object.class) assert_block(full_message){object.kind_of?(klass)} end end ## # Passes if +object+ .respond_to? +method+ # # Example: # assert_respond_to 'bugbear', :slice public def assert_respond_to(object, method, message="") _wrap_assertion do full_message = build_message(nil, "<?>\ngiven as the method name argument to #assert_respond_to must be a Symbol or #respond_to\\?(:to_str).", method) assert_block(full_message) do method.kind_of?(Symbol) || method.respond_to?(:to_str) end full_message = build_message(message, <<EOT, object, object.class, method) <?> of type <?> expected to respond_to\\?<?>. EOT assert_block(full_message) { object.respond_to?(method) } end end ## # Passes if +string+ =~ +pattern+. # # Example: # assert_match(/\d+/, 'five, 6, seven') public def assert_match(pattern, string, message="") _wrap_assertion do pattern = case(pattern) when String Regexp.new(Regexp.escape(pattern)) else pattern end full_message = build_message(message, "<?> expected to be =~\n<?>.", string, pattern) assert_block(full_message) { string =~ pattern } end end ## # Passes if +actual+ .equal? +expected+ (i.e. they are the same # instance). # # Example: # o = Object.new # assert_same o, o public def assert_same(expected, actual, message="") full_message = build_message(message, <<EOT, expected, expected.__id__, actual, actual.__id__) <?> with id <?> expected to be equal\\? to <?> with id <?>. EOT assert_block(full_message) { actual.equal?(expected) } end ## # Compares the +object1+ with +object2+ using +operator+. # # Passes if object1.__send__(operator, object2) is true. # # Example: # assert_operator 5, :>=, 4 public def assert_operator(object1, operator, object2, message="") _wrap_assertion do full_message = build_message(nil, "<?>\ngiven as the operator for #assert_operator must be a Symbol or #respond_to\\?(:to_str).", operator) assert_block(full_message){operator.kind_of?(Symbol) || operator.respond_to?(:to_str)} full_message = build_message(message, <<EOT, object1, AssertionMessage.literal(operator), object2) <?> expected to be ? <?>. EOT assert_block(full_message) { object1.__send__(operator, object2) } end end ## # Passes if block does not raise an exception. # # Example: # assert_nothing_raised do # [1, 2].uniq # end public def assert_nothing_raised(*args) _wrap_assertion do if Module === args.last message = "" else message = args.pop end exceptions, modules = _check_exception_class(args) begin yield rescue Exception => e if ((args.empty? && !e.instance_of?(AssertionFailedError)) || _expected_exception?(e, exceptions, modules)) assert_block(build_message(message, "Exception raised:\n?", e)){false} else raise end end nil end end ## # Flunk always fails. # # Example: # flunk 'Not done testing yet.' public def flunk(message="Flunked") assert_block(build_message(message)){false} end ## # Passes if ! +actual+ .equal? +expected+ # # Example: # assert_not_same Object.new, Object.new public def assert_not_same(expected, actual, message="") full_message = build_message(message, <<EOT, expected, expected.__id__, actual, actual.__id__) <?> with id <?> expected to not be equal\\? to <?> with id <?>. EOT assert_block(full_message) { !actual.equal?(expected) } end ## # Passes if +expected+ != +actual+ # # Example: # assert_not_equal 'some string', 5 public def assert_not_equal(expected, actual, message="") full_message = build_message(message, "<?> expected to be != to\n<?>.", expected, actual) assert_block(full_message) { expected != actual } end ## # Passes if ! +object+ .nil? # # Example: # assert_not_nil '1 two 3'.sub!(/two/, '2') public def assert_not_nil(object, message="") full_message = build_message(message, "<?> expected to not be nil.", object) assert_block(full_message){!object.nil?} end ## # Passes if +regexp+ !~ +string+ # # Example: # assert_no_match(/two/, 'one 2 three') public def assert_no_match(regexp, string, message="") _wrap_assertion do assert_instance_of(Regexp, regexp, "The first argument to assert_no_match should be a Regexp.") full_message = build_message(message, "<?> expected to not match\n<?>.", regexp, string) assert_block(full_message) { regexp !~ string } end end UncaughtThrow = {NameError => /^uncaught throw \`(.+)\'$/, ThreadError => /^uncaught throw \`(.+)\' in thread /} #` ## # Passes if the block throws +expected_symbol+ # # Example: # assert_throws :done do # throw :done # end public def assert_throws(expected_symbol, message="", &proc) _wrap_assertion do assert_instance_of(Symbol, expected_symbol, "assert_throws expects the symbol that should be thrown for its first argument") assert_block("Should have passed a block to assert_throws."){block_given?} caught = true begin catch(expected_symbol) do proc.call caught = false end full_message = build_message(message, "<?> should have been thrown.", expected_symbol) assert_block(full_message){caught} rescue NameError, ThreadError => error if UncaughtThrow[error.class] !~ error.message raise error end full_message = build_message(message, "<?> expected to be thrown but\n<?> was thrown.", expected_symbol, $1.intern) flunk(full_message) end end end ## # Passes if block does not throw anything. # # Example: # assert_nothing_thrown do # [1, 2].uniq # end public def assert_nothing_thrown(message="", &proc) _wrap_assertion do assert(block_given?, "Should have passed a block to assert_nothing_thrown") begin proc.call rescue NameError, ThreadError => error if UncaughtThrow[error.class] !~ error.message raise error end full_message = build_message(message, "<?> was thrown when nothing was expected", $1.intern) flunk(full_message) end assert(true, "Expected nothing to be thrown") end end ## # Passes if +expected_float+ and +actual_float+ are equal # within +delta+ tolerance. # # Example: # assert_in_delta 0.05, (50000.0 / 10**6), 0.00001 public def assert_in_delta(expected_float, actual_float, delta, message="") _wrap_assertion do {expected_float => "first float", actual_float => "second float", delta => "delta"}.each do |float, name| assert_respond_to(float, :to_f, "The arguments must respond to to_f; the #{name} did not") end assert_operator(delta, :>=, 0.0, "The delta should not be negative") full_message = build_message(message, <<EOT, expected_float, actual_float, delta) <?> and <?> expected to be within <?> of each other. EOT assert_block(full_message) { (expected_float.to_f - actual_float.to_f).abs <= delta.to_f } end end ## # Passes if the method send returns a true value. # # +send_array+ is composed of: # * A receiver # * A method # * Arguments to the method # # Example: # assert_send [[1, 2], :include?, 4] public def assert_send(send_array, message="") _wrap_assertion do assert_instance_of(Array, send_array, "assert_send requires an array of send information") assert(send_array.size >= 2, "assert_send requires at least a receiver and a message name") full_message = build_message(message, <<EOT, send_array[0], AssertionMessage.literal(send_array[1].to_s), send_array[2..-1]) <?> expected to respond to <?(?)> with a true value. EOT assert_block(full_message) { send_array[0].__send__(send_array[1], *send_array[2..-1]) } end end ## # Builds a failure message. +head+ is added before the +template+ and # +arguments+ replaces the '?'s positionally in the template. public def build_message(head, template=nil, *arguments) template &&= template.chomp return AssertionMessage.new(head, template, arguments) end private def _wrap_assertion @_assertion_wrapped ||= false unless (@_assertion_wrapped) @_assertion_wrapped = true begin add_assertion return yield ensure @_assertion_wrapped = false end else return yield end end ## # Called whenever an assertion is made. Define this in classes that # include Test::Unit::Assertions to record assertion counts. private def add_assertion end ## # Select whether or not to use the pretty-printer. If this option is set # to false before any assertions are made, pp.rb will not be required. public def self.use_pp=(value) AssertionMessage.use_pp = value end # :stopdoc: class AssertionMessage @use_pp = true class << self attr_accessor :use_pp end class Literal def initialize(value) @value = value end def inspect @value.to_s end end class Template def self.create(string) parts = (string ? string.scan(/(?=[^\\])\?|(?:\\\?|[^\?])+/m) : []) self.new(parts) end attr_reader :count def initialize(parts) @parts = parts @count = parts.find_all{|e| e == '?'}.size end def result(parameters) raise "The number of parameters does not match the number of substitutions." if(parameters.size != count) params = parameters.dup @parts.collect{|e| e == '?' ? params.shift : e.gsub(/\\\?/m, '?')}.join('') end end def self.literal(value) Literal.new(value) end include Util::BacktraceFilter def initialize(head, template_string, parameters) @head = head @template_string = template_string @parameters = parameters end def convert(object) case object when Exception <<EOM.chop Class: <#{convert(object.class)}> Message: <#{convert(object.message)}> ---Backtrace--- #{filter_backtrace(object.backtrace).join("\n")} --------------- EOM else if(self.class.use_pp) begin require 'pp' rescue LoadError self.class.use_pp = false return object.inspect end unless(defined?(PP)) PP.pp(object, '').chomp else object.inspect end end end def template @template ||= Template.create(@template_string) end def add_period(string) (string =~ /\.\Z/ ? string : string + '.') end def to_s message_parts = [] if (@head) head = @head.to_s unless(head.empty?) message_parts << add_period(head) end end tail = template.result(@parameters.collect{|e| convert(e)}) message_parts << tail unless(tail.empty?) message_parts.join("\n") end end # :startdoc: end end end