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Direktori : /opt/alt/ruby20/lib64/ruby/2.0.0/test/unit/ |
Current File : //opt/alt/ruby20/lib64/ruby/2.0.0/test/unit/assertions.rb |
require 'minitest/unit' require 'pp' module Test module Unit module Assertions include MiniTest::Assertions def mu_pp(obj) #:nodoc: obj.pretty_inspect.chomp end MINI_DIR = File.join(File.dirname(File.dirname(File.expand_path(__FILE__))), "minitest") #:nodoc: UNASSIGNED = Object.new # :nodoc: # :call-seq: # assert( test, failure_message = UNASSIGNED ) # #Tests if +test+ is true. # #+msg+ may be a String or a Proc. If +msg+ is a String, it will be used #as the failure message. Otherwise, the result of calling +msg+ will be #used as the message if the assertion fails. # #If no +msg+ is given, a default message will be used. # # assert(false, "This was expected to be true") def assert(test, msg = UNASSIGNED) case msg when UNASSIGNED msg = nil when String, Proc else bt = caller.reject { |s| s.rindex(MINI_DIR, 0) } raise ArgumentError, "assertion message must be String or Proc, but #{msg.class} was given.", bt end super end # :call-seq: # assert_block( failure_message = nil ) # #Tests the result of the given block. If the block does not return true, #the assertion will fail. The optional +failure_message+ argument is the same as in #Assertions#assert. # # assert_block do # [1, 2, 3].any? { |num| num < 1 } # end def assert_block(*msgs) assert yield, *msgs end # :call-seq: # assert_raise( *args, &block ) # #Tests if the given block raises an exception. Acceptable exception #types maye be given as optional arguments. If the last argument is a #String, it will be used as the error message. # # assert_raise do #Fails, no Exceptions are raised # end # # assert_raise NameError do # puts x #Raises NameError, so assertion succeeds # end def assert_raise(*args, &b) assert_raises(*args, &b) end # :call-seq: # assert_nothing_raised( *args, &block ) # #If any exceptions are given as arguments, the assertion will #fail if one of those exceptions are raised. Otherwise, the test fails #if any exceptions are raised. # #The final argument may be a failure message. # # assert_nothing_raised RuntimeError do # raise Exception #Assertion passes, Exception is not a RuntimeError # end # # assert_nothing_raised do # raise Exception #Assertion fails # end def assert_nothing_raised(*args) self._assertions += 1 if Module === args.last msg = nil else msg = args.pop end begin line = __LINE__; yield rescue MiniTest::Skip raise rescue Exception => e bt = e.backtrace as = e.instance_of?(MiniTest::Assertion) if as ans = /\A#{Regexp.quote(__FILE__)}:#{line}:in /o bt.reject! {|ln| ans =~ ln} end if ((args.empty? && !as) || args.any? {|a| a.instance_of?(Module) ? e.is_a?(a) : e.class == a }) msg = message(msg) { "Exception raised:\n<#{mu_pp(e)}>" } raise MiniTest::Assertion, msg.call, bt else raise end end nil end # :call-seq: # assert_nothing_thrown( failure_message = nil, &block ) # #Fails if the given block uses a call to Kernel#throw. # #An optional failure message may be provided as the final argument. # # assert_nothing_thrown "Something was thrown!" do # throw :problem? # end def assert_nothing_thrown(msg=nil) begin yield rescue ArgumentError => error raise error if /\Auncaught throw (.+)\z/m !~ error.message msg = message(msg) { "<#{$1}> was thrown when nothing was expected" } flunk(msg) end assert(true, "Expected nothing to be thrown") end # :call-seq: # assert_equal( expected, actual, failure_message = nil ) # #Tests if +expected+ is equal to +actual+. # #An optional failure message may be provided as the final argument. def assert_equal(exp, act, msg = nil) msg = message(msg) { exp_str = mu_pp(exp) act_str = mu_pp(act) exp_comment = '' act_comment = '' if exp_str == act_str if (exp.is_a?(String) && act.is_a?(String)) || (exp.is_a?(Regexp) && act.is_a?(Regexp)) exp_comment = " (#{exp.encoding})" act_comment = " (#{act.encoding})" elsif exp.is_a?(Float) && act.is_a?(Float) exp_str = "%\#.#{Float::DIG+2}g" % exp act_str = "%\#.#{Float::DIG+2}g" % act elsif exp.is_a?(Time) && act.is_a?(Time) if exp.subsec * 1000_000_000 == exp.nsec exp_comment = " (#{exp.nsec}[ns])" else exp_comment = " (subsec=#{exp.subsec})" end if act.subsec * 1000_000_000 == act.nsec act_comment = " (#{act.nsec}[ns])" else act_comment = " (subsec=#{act.subsec})" end elsif exp.class != act.class # a subclass of Range, for example. exp_comment = " (#{exp.class})" act_comment = " (#{act.class})" end elsif !Encoding.compatible?(exp_str, act_str) if exp.is_a?(String) && act.is_a?(String) exp_str = exp.dump act_str = act.dump exp_comment = " (#{exp.encoding})" act_comment = " (#{act.encoding})" else exp_str = exp_str.dump act_str = act_str.dump end end "<#{exp_str}>#{exp_comment} expected but was\n<#{act_str}>#{act_comment}" } assert(exp == act, msg) end # :call-seq: # assert_not_nil( expression, failure_message = nil ) # #Tests if +expression+ is not nil. # #An optional failure message may be provided as the final argument. def assert_not_nil(exp, msg=nil) msg = message(msg) { "<#{mu_pp(exp)}> expected to not be nil" } assert(!exp.nil?, msg) end # :call-seq: # assert_not_equal( expected, actual, failure_message = nil ) # #Tests if +expected+ is not equal to +actual+. # #An optional failure message may be provided as the final argument. def assert_not_equal(exp, act, msg=nil) msg = message(msg) { "<#{mu_pp(exp)}> expected to be != to\n<#{mu_pp(act)}>" } assert(exp != act, msg) end # :call-seq: # assert_no_match( regexp, string, failure_message = nil ) # #Tests if the given Regexp does not match a given String. # #An optional failure message may be provided as the final argument. def assert_no_match(regexp, string, msg=nil) assert_instance_of(Regexp, regexp, "The first argument to assert_no_match should be a Regexp.") self._assertions -= 1 msg = message(msg) { "<#{mu_pp(regexp)}> expected to not match\n<#{mu_pp(string)}>" } assert(regexp !~ string, msg) end # :call-seq: # assert_not_same( expected, actual, failure_message = nil ) # #Tests if +expected+ is not the same object as +actual+. #This test uses Object#equal? to test equality. # #An optional failure message may be provided as the final argument. # # assert_not_same("x", "x") #Succeeds def assert_not_same(expected, actual, message="") msg = message(msg) { build_message(message, <<EOT, expected, expected.__id__, actual, actual.__id__) } <?> with id <?> expected to not be equal\\? to <?> with id <?>. EOT assert(!actual.equal?(expected), msg) end # :call-seq: # assert_respond_to( object, method, failure_message = nil ) # #Tests if the given Object responds to +method+. # #An optional failure message may be provided as the final argument. # # assert_respond_to("hello", :reverse) #Succeeds # assert_respond_to("hello", :does_not_exist) #Fails def assert_respond_to obj, (meth, priv), msg = nil if priv msg = message(msg) { "Expected #{mu_pp(obj)} (#{obj.class}) to respond to ##{meth}#{" privately" if priv}" } return assert obj.respond_to?(meth, priv), msg end #get rid of overcounting super if !caller[0].rindex(MINI_DIR, 0) || !obj.respond_to?(meth) end # :call-seq: # assert_send( +send_array+, failure_message = nil ) # # 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], :member?, 1]) # -> pass # assert_send([[1, 2], :member?, 4]) # -> fail def assert_send send_ary, m = nil recv, msg, *args = send_ary m = message(m) { if args.empty? argsstr = "" else (argsstr = mu_pp(args)).sub!(/\A\[(.*)\]\z/m, '(\1)') end "Expected #{mu_pp(recv)}.#{msg}#{argsstr} to return true" } assert recv.__send__(msg, *args), m end # :call-seq: # assert_not_send( +send_array+, failure_message = nil ) # # Passes if the method send doesn't return a true value. # # +send_array+ is composed of: # * A receiver # * A method # * Arguments to the method # # Example: # assert_not_send([[1, 2], :member?, 1]) # -> fail # assert_not_send([[1, 2], :member?, 4]) # -> pass def assert_not_send send_ary, m = nil recv, msg, *args = send_ary m = message(m) { if args.empty? argsstr = "" else (argsstr = mu_pp(args)).sub!(/\A\[(.*)\]\z/m, '(\1)') end "Expected #{mu_pp(recv)}.#{msg}#{argsstr} to return false" } assert !recv.__send__(msg, *args), m end ms = instance_methods(true).map {|sym| sym.to_s } ms.grep(/\Arefute_/) do |m| mname = ('assert_not_' << m.to_s[/.*?_(.*)/, 1]) alias_method(mname, m) unless ms.include? mname end alias assert_include assert_includes alias assert_not_include assert_not_includes def build_message(head, template=nil, *arguments) #:nodoc: template &&= template.chomp template.gsub(/\G((?:[^\\]|\\.)*?)(\\)?\?/) { $1 + ($2 ? "?" : mu_pp(arguments.shift)) } end end end end