module Mutant # Represent a mutated node with its subject class Mutation include AbstractType, Adamantium::Flat include Concord::Public.new(:subject, :node) CODE_DELIMITER = "\0".freeze CODE_RANGE = (0..4).freeze # Identification string # # @return [String] def identification "#{self.class::SYMBOL}:#{subject.identification}:#{code}" end memoize :identification # Mutation code # # @return [String] def code sha1[CODE_RANGE] end memoize :code # Normalized mutation source # # @return [String] def source Unparser.unparse(node) end memoize :source # Normalized original source # # @return [String] def original_source subject.source end # Test if mutation is killed by test reports # # @param [Result::Test] test_result # # @return [Boolean] def self.success?(test_result) self::TEST_PASS_SUCCESS.equal?(test_result.passed) end # Insert mutated node # # @param kernel [Kernel] # # @return [self] def insert(kernel) subject.prepare Loader.call( binding: TOPLEVEL_BINDING, kernel: kernel, node: root, subject: subject ) self end private # SHA1 sum of source and subject identification # # @return [String] def sha1 Digest::SHA1.hexdigest(subject.identification + CODE_DELIMITER + source) end memoize :sha1 # Mutated root node # # @return [Parser::AST::Node] def root subject.context.root(node) end # Evil mutation that should case mutations to fail tests class Evil < self SYMBOL = 'evil'.freeze TEST_PASS_SUCCESS = false end # Evil # Neutral mutation that should not cause mutations to fail tests class Neutral < self SYMBOL = 'neutral'.freeze TEST_PASS_SUCCESS = true end # Neutral # Noop mutation, special case of neutral class Noop < Neutral SYMBOL = 'noop'.freeze TEST_PASS_SUCCESS = true end # Noop end # Mutation end # Mutant