if (defined? RUBY_ENGINE) && RUBY_ENGINE == 'jruby' require 'java' JRuby.objectspace=true end $stdlib = {} if ObjectSpace.respond_to?(:loaded_classes, true) then ObjectSpace.loaded_classes(true).each do |m| $stdlib[m.name] = true if m.respond_to? :name end else ObjectSpace.each_object(Module) do |m| $stdlib[m.name] = true if m.respond_to? :name end end require 'zentest_mapping' $:.unshift( *$I.split(/:/) ) if defined? $I and String === $I $r = false unless defined? $r # reverse mapping for testclass names $t ||= false # test/unit instead of minitest if $r then # all this is needed because rails is retarded $-w = false $: << 'test' $: << 'lib' require 'config/environment' f = './app/controllers/application.rb' require f if test ?f, f end $TESTING = true class Module def zentest at_exit { ZenTest.autotest(self) } end end ## # ZenTest scans your target and unit-test code and writes your missing # code based on simple naming rules, enabling XP at a much quicker # pace. ZenTest only works with Ruby and Minitest or Test::Unit. # # == RULES # # ZenTest uses the following rules to figure out what code should be # generated: # # * Definition: # * CUT = Class Under Test # * TC = Test Class (for CUT) # * TC's name is the same as CUT w/ "Test" prepended at every scope level. # * Example: TestA::TestB vs A::B. # * CUT method names are used in CT, with "test_" prependend and optional "_ext" extensions for differentiating test case edge boundaries. # * Example: # * A::B#blah # * TestA::TestB#test_blah_normal # * TestA::TestB#test_blah_missing_file # * All naming conventions are bidirectional with the exception of test extensions. # # See ZenTestMapping for documentation on method naming. class ZenTest VERSION = "4.11.2" include ZenTestMapping if $TESTING then attr_reader :missing_methods attr_accessor :test_klasses attr_accessor :klasses attr_accessor :inherited_methods else def missing_methods; raise "Something is wack"; end end def initialize @result = [] @test_klasses = {} @klasses = {} @error_count = 0 @inherited_methods = Hash.new { |h,k| h[k] = {} } # key = klassname, val = hash of methods => true @missing_methods = Hash.new { |h,k| h[k] = {} } end # load_file wraps require, skipping the loading of $0. def load_file(file) puts "# loading #{file} // #{$0}" if $DEBUG unless file == $0 then begin require file rescue LoadError => err puts "Could not load #{file}: #{err}" end else puts "# Skipping loading myself (#{file})" if $DEBUG end end # obtain the class klassname def get_class(klassname) klass = nil begin klass = klassname.split(/::/).inject(Object) { |k,n| k.const_get n } puts "# found class #{klass.name}" if $DEBUG rescue NameError end if klass.nil? and not $TESTING then puts "Could not figure out how to get #{klassname}..." puts "Report to support-zentest@zenspider.com w/ relevant source" end return klass end # Get the public instance, class and singleton methods for # class klass. If full is true, include the methods from # Kernel and other modules that get included. The methods # suite, new, pretty_print, pretty_print_cycle will not # be included in the resuting array. def get_methods_for(klass, full=false) klass = self.get_class(klass) if klass.kind_of? String # WTF? public_instance_methods: default vs true vs false = 3 answers # to_s on all results if ruby >= 1.9 public_methods = klass.public_instance_methods(false) public_methods -= Kernel.methods unless full public_methods.map! { |m| m.to_s } public_methods -= %w(pretty_print pretty_print_cycle) klass_methods = klass.singleton_methods(full) klass_methods -= Class.public_methods(true) klass_methods = klass_methods.map { |m| "self.#{m}" } klass_methods -= %w(self.suite new) result = {} (public_methods + klass_methods).each do |meth| puts "# found method #{meth}" if $DEBUG result[meth] = true end return result end # Return the methods for class klass, as a hash with the # method nemas as keys, and true as the value for all keys. # Unless full is true, leave out the methods for Object which # all classes get. def get_inherited_methods_for(klass, full) klass = self.get_class(klass) if klass.kind_of? String klassmethods = {} if (klass.class.method_defined?(:superclass)) then superklass = klass.superclass if superklass then the_methods = superklass.instance_methods(true) # generally we don't test Object's methods... unless full then the_methods -= Object.instance_methods(true) the_methods -= Kernel.methods # FIX (true) - check 1.6 vs 1.8 end the_methods.each do |meth| klassmethods[meth.to_s] = true end end end return klassmethods end # Check the class klass is a testing class # (by inspecting its name). def is_test_class(klass) klass = klass.to_s klasspath = klass.split(/::/) a_bad_classpath = klasspath.find do |s| s !~ ($r ? /Test$/ : /^Test/) end return a_bad_classpath.nil? end # Generate the name of a testclass from non-test class # so that Foo::Blah => TestFoo::TestBlah, etc. It the # name is already a test class, convert it the other way. def convert_class_name(name) name = name.to_s if self.is_test_class(name) then if $r then name = name.gsub(/Test($|::)/, '\1') # FooTest::BlahTest => Foo::Blah else name = name.gsub(/(^|::)Test/, '\1') # TestFoo::TestBlah => Foo::Blah end else if $r then name = name.gsub(/($|::)/, 'Test\1') # Foo::Blah => FooTest::BlahTest else name = name.gsub(/(^|::)/, '\1Test') # Foo::Blah => TestFoo::TestBlah end end return name end # Does all the work of finding a class by name, # obtaining its methods and those of its superclass. # The full parameter determines if all the methods # including those of Object and mixed in modules # are obtained (true if they are, false by default). def process_class(klassname, full=false) klass = self.get_class(klassname) raise "Couldn't get class for #{klassname}" if klass.nil? klassname = klass.name # refetch to get full name is_test_class = self.is_test_class(klassname) target = is_test_class ? @test_klasses : @klasses # record public instance methods JUST in this class target[klassname] = self.get_methods_for(klass, full) # record ALL instance methods including superclasses (minus Object) # Only minus Object if full is true. @inherited_methods[klassname] = self.get_inherited_methods_for(klass, full) return klassname end # Work through files, collecting class names, method names # and assertions. Detects ZenTest (SKIP|FULL) comments # in the bodies of classes. # For each class a count of methods and test methods is # kept, and the ratio noted. def scan_files(*files) assert_count = Hash.new(0) method_count = Hash.new(0) klassname = nil files.each do |path| is_loaded = false # if reading stdin, slurp the whole thing at once file = (path == "-" ? $stdin.read : File.new(path)) file.each_line do |line| if klassname then case line when /^\s*def/ then method_count[klassname] += 1 when /assert|flunk/ then assert_count[klassname] += 1 end end if line =~ /^\s*(?:class|module)\s+([\w:]+)/ then klassname = $1 if line =~ /\#\s*ZenTest SKIP/ then klassname = nil next end full = false if line =~ /\#\s*ZenTest FULL/ then full = true end unless is_loaded then unless path == "-" then self.load_file(path) else eval file, TOPLEVEL_BINDING end is_loaded = true end begin klassname = self.process_class(klassname, full) rescue puts "# Couldn't find class for name #{klassname}" next end # Special Case: ZenTest is already loaded since we are running it if klassname == "TestZenTest" then klassname = "ZenTest" self.process_class(klassname, false) end end # if /class/ end # IO.foreach end # files result = [] method_count.each_key do |classname| entry = {} next if is_test_class(classname) testclassname = convert_class_name(classname) a_count = assert_count[testclassname] m_count = method_count[classname] ratio = a_count.to_f / m_count.to_f * 100.0 entry['n'] = classname entry['r'] = ratio entry['a'] = a_count entry['m'] = m_count result.push entry end sorted_results = result.sort { |a,b| b['r'] <=> a['r'] } @result.push sprintf("# %25s: %4s / %4s = %6s%%", "classname", "asrt", "meth", "ratio") sorted_results.each do |e| @result.push sprintf("# %25s: %4d / %4d = %6.2f%%", e['n'], e['a'], e['m'], e['r']) end end # Adds a missing method to the collected results. def add_missing_method(klassname, methodname) @result.push "# ERROR method #{klassname}\##{methodname} does not exist (1)" if $DEBUG and not $TESTING @error_count += 1 @missing_methods[klassname][methodname] = true end # looks up the methods and the corresponding test methods # in the collection already built. To reduce duplication # and hide implementation details. def methods_and_tests(klassname, testklassname) return @klasses[klassname], @test_klasses[testklassname] end # Checks, for the given class klassname, that each method # has a corrsponding test method. If it doesn't this is # added to the information for that class def analyze_impl(klassname) testklassname = self.convert_class_name(klassname) if @test_klasses[testklassname] then _, testmethods = methods_and_tests(klassname, testklassname) # check that each method has a test method @klasses[klassname].each_key do | methodname | testmethodname = normal_to_test(methodname) unless testmethods[testmethodname] then begin unless testmethods.keys.find { |m| m =~ /#{testmethodname}(_\w+)+$/ } then self.add_missing_method(testklassname, testmethodname) end rescue RegexpError puts "# ERROR trying to use '#{testmethodname}' as a regex. Look at #{klassname}.#{methodname}" end end # testmethods[testmethodname] end # @klasses[klassname].each_key else # ! @test_klasses[testklassname] puts "# ERROR test class #{testklassname} does not exist" if $DEBUG @error_count += 1 @klasses[klassname].keys.each do | methodname | self.add_missing_method(testklassname, normal_to_test(methodname)) end end # @test_klasses[testklassname] end # For the given test class testklassname, ensure that all # the test methods have corresponding (normal) methods. # If not, add them to the information about that class. def analyze_test(testklassname) klassname = self.convert_class_name(testklassname) # CUT might be against a core class, if so, slurp it and analyze it if $stdlib[klassname] then self.process_class(klassname, true) self.analyze_impl(klassname) end if @klasses[klassname] then methods, testmethods = methods_and_tests(klassname,testklassname) # check that each test method has a method testmethods.each_key do | testmethodname | if testmethodname =~ /^test_(?!integration_)/ then # try the current name methodname = test_to_normal(testmethodname, klassname) orig_name = methodname.dup found = false until methodname == "" or methods[methodname] or @inherited_methods[klassname][methodname] do # try the name minus an option (ie mut_opt1 -> mut) if methodname.sub!(/_[^_]+$/, '') then if methods[methodname] or @inherited_methods[klassname][methodname] then found = true end else break # no more substitutions will take place end end # methodname == "" or ... unless found or methods[methodname] or methodname == "initialize" then self.add_missing_method(klassname, orig_name) end else # not a test_.* method unless testmethodname =~ /^util_/ then puts "# WARNING Skipping #{testklassname}\##{testmethodname}" if $DEBUG end end # testmethodname =~ ... end # testmethods.each_key else # ! @klasses[klassname] puts "# ERROR class #{klassname} does not exist" if $DEBUG @error_count += 1 @test_klasses[testklassname].keys.each do |testmethodname| @missing_methods[klassname][test_to_normal(testmethodname)] = true end end # @klasses[klassname] end # create a given method at a given # indentation. Returns an array containing # the lines of the method. def create_method(indentunit, indent, name) meth = [] meth.push indentunit*indent + "def #{name}" meth.last << "(*args)" unless name =~ /^test/ indent += 1 meth.push indentunit*indent + "raise NotImplementedError, 'Need to write #{name}'" indent -= 1 meth.push indentunit*indent + "end" return meth end # Walk each known class and test that each method has # a test method # Then do it in the other direction... def analyze # walk each known class and test that each method has a test method @klasses.each_key do |klassname| self.analyze_impl(klassname) end # now do it in the other direction... @test_klasses.each_key do |testklassname| self.analyze_test(testklassname) end end # Using the results gathered during analysis # generate skeletal code with methods raising # NotImplementedError, so that they can be filled # in later, and so the tests will fail to start with. def generate_code @result.unshift "# Code Generated by ZenTest v. #{VERSION}" if $DEBUG then @result.push "# found classes: #{@klasses.keys.join(', ')}" @result.push "# found test classes: #{@test_klasses.keys.join(', ')}" end if @missing_methods.size > 0 then @result.push "" if $t then @result.push "require 'test/unit/testcase'" @result.push "require 'test/unit' if $0 == __FILE__" else @result.push "require 'minitest/autorun'" end @result.push "" end indentunit = " " @missing_methods.keys.sort.each do |fullklasspath| methods = @missing_methods[fullklasspath] cls_methods = methods.keys.grep(/^(self\.|test_class_)/) methods.delete_if {|k,v| cls_methods.include? k } next if methods.empty? and cls_methods.empty? indent = 0 is_test_class = self.is_test_class(fullklasspath) clsname = $t ? "Test::Unit::TestCase" : "Minitest::Test" superclass = is_test_class ? " < #{clsname}" : '' @result.push indentunit*indent + "class #{fullklasspath}#{superclass}" indent += 1 meths = [] cls_methods.sort.each do |method| meth = create_method(indentunit, indent, method) meths.push meth.join("\n") end methods.keys.sort.each do |method| next if method =~ /pretty_print/ meth = create_method(indentunit, indent, method) meths.push meth.join("\n") end @result.push meths.join("\n\n") indent -= 1 @result.push indentunit*indent + "end" @result.push '' end @result.push "# Number of errors detected: #{@error_count}" @result.push '' end # presents results in a readable manner. def result return @result.join("\n") end # Provide a certain amount of help. def self.usage puts <<-EO_USAGE usage: #{File.basename $0} [options] test-and-implementation-files... ZenTest scans your target and unit-test code and writes your missing code based on simple naming rules, enabling XP at a much quicker pace. ZenTest only works with Ruby and Minitest or Test::Unit. ZenTest uses the following rules to figure out what code should be generated: * Definition: * CUT = Class Under Test * TC = Test Class (for CUT) * TC's name is the same as CUT w/ "Test" prepended at every scope level. * Example: TestA::TestB vs A::B. * CUT method names are used in CT, with "test_" prependend and optional "_ext" extensions for differentiating test case edge boundaries. * Example: * A::B#blah * TestA::TestB#test_blah_normal * TestA::TestB#test_blah_missing_file * All naming conventions are bidirectional with the exception of test extensions. options: -h display this information -v display version information -r Reverse mapping (ClassTest instead of TestClass) -e (Rapid XP) eval the code generated instead of printing it -t test/unit generation (default is minitest). EO_USAGE end # Give help, then quit. def self.usage_with_exit self.usage exit 0 end # Runs ZenTest over all the supplied files so that # they are analysed and the missing methods have # skeleton code written. # If no files are supplied, splutter out some help. def self.fix(*files) ZenTest.usage_with_exit if files.empty? zentest = ZenTest.new zentest.scan_files(*files) zentest.analyze zentest.generate_code return zentest.result end # Process all the supplied classes for methods etc, # and analyse the results. Generate the skeletal code # and eval it to put the methods into the runtime # environment. def self.autotest(*klasses) zentest = ZenTest.new klasses.each do |klass| zentest.process_class(klass) end zentest.analyze zentest.missing_methods.each do |klass,methods| methods.each do |method,x| warn "autotest generating #{klass}##{method}" end end zentest.generate_code code = zentest.result puts code if $DEBUG Object.class_eval code end end