require 'pry/module_candidate' class Pry class << self # If the given object is a `Pry::WrappedModule`, return it unaltered. If it's # anything else, return it wrapped in a `Pry::WrappedModule` instance. def WrappedModule(obj) if obj.is_a? Pry::WrappedModule obj else Pry::WrappedModule.new(obj) end end end class WrappedModule include Helpers::BaseHelpers include CodeObject::Helpers attr_reader :wrapped # Convert a string to a module. # # @param [String] mod_name # @param [Binding] target The binding where the lookup takes place. # @return [Module, nil] The module or `nil` (if conversion failed). # @example # Pry::WrappedModule.from_str("Pry::Code") def self.from_str(mod_name, target=TOPLEVEL_BINDING) if safe_to_evaluate?(mod_name, target) Pry::WrappedModule.new(target.eval(mod_name)) else nil end rescue RescuableException nil end class << self private # We use this method to decide whether code is safe to eval. Method's are # generally not, but everything else is. # TODO: is just checking != "method" enough?? # TODO: see duplication of this method in Pry::CodeObject # @param [String] str The string to lookup. # @param [Binding] target Where the lookup takes place. # @return [Boolean] def safe_to_evaluate?(str, target) return true if str.strip == "self" kind = target.eval("defined?(#{str})") kind =~ /variable|constant/ end end # @raise [ArgumentError] if the argument is not a `Module` # @param [Module] mod def initialize(mod) raise ArgumentError, "Tried to initialize a WrappedModule with a non-module #{mod.inspect}" unless ::Module === mod @wrapped = mod @memoized_candidates = [] @host_file_lines = nil @source = nil @source_location = nil @doc = nil end # Returns an array of the names of the constants accessible in the wrapped # module. This provides a consistent interface between 1.8 and 1.9 and also # avoids the problem of accidentally calling the singleton method # `Module.constants`. # @param [Boolean] inherit Include the names of constants from included # modules? def constants(inherit = true) method = Module.instance_method(:constants).bind(@wrapped) # If we're on 1.8, we have to manually remove ancestors' constants. If # we're on 1.9, though, it's better to use the built-in `inherit` param, # since it doesn't do things like incorrectly remove Pry::Config. if method.arity == 0 consts = method.call if !inherit ancestors_ = Pry::Method.safe_send(@wrapped, :ancestors) consts -= (ancestors_ - [@wrapped]).map(&:constants).flatten end else consts = method.call(inherit) end consts end # The prefix that would appear before methods defined on this class. # # i.e. the "String." or "String#" in String.new and String#initialize. # # @return String def method_prefix if singleton_class? if Module === singleton_instance "#{WrappedModule.new(singleton_instance).nonblank_name}." else "self." end else "#{nonblank_name}#" end end # The name of the Module if it has one, otherwise #. # # @return [String] def nonblank_name if name.to_s == "" wrapped.inspect else name end end # Is this a singleton class? # @return [Boolean] def singleton_class? wrapped != Pry::Method.safe_send(wrapped, :ancestors).first end # Is this strictly a module? (does not match classes) # @return [Boolean] def module? wrapped.instance_of?(Module) end # Is this strictly a class? # @return [Boolean] def class? wrapped.instance_of?(Class) end # Get the instance associated with this singleton class. # # @raise ArgumentError: tried to get instance of non singleton class # # @return [Object] def singleton_instance raise ArgumentError, "tried to get instance of non singleton class" unless singleton_class? if Helpers::BaseHelpers.jruby? wrapped.to_java.attached else @singleton_instance ||= ObjectSpace.each_object(wrapped).detect{ |x| (class << x; self; end) == wrapped } end end # Forward method invocations to the wrapped module def method_missing(method_name, *args, &block) wrapped.send(method_name, *args, &block) end def respond_to?(method_name) super || wrapped.respond_to?(method_name) end # Retrieve the source location of a module. Return value is in same # format as Method#source_location. If the source location # cannot be found this method returns `nil`. # # @param [Module] mod The module (or class). # @return [Array, nil] The source location of the # module (or class), or `nil` if no source location found. def source_location @source_location ||= primary_candidate.source_location rescue Pry::RescuableException nil end # @return [String, nil] The associated file for the module (i.e # the primary candidate: highest ranked monkeypatch). def file Array(source_location).first end alias_method :source_file, :file # @return [Fixnum, nil] The associated line for the module (i.e # the primary candidate: highest ranked monkeypatch). def line Array(source_location).last end alias_method :source_line, :line # Returns documentation for the module. # This documentation is for the primary candidate, if # you would like documentation for other candidates use # `WrappedModule#candidate` to select the candidate you're # interested in. # @raise [Pry::CommandError] If documentation cannot be found. # @return [String] The documentation for the module. def doc @doc ||= primary_candidate.doc end # Returns the source for the module. # This source is for the primary candidate, if # you would like source for other candidates use # `WrappedModule#candidate` to select the candidate you're # interested in. # @raise [Pry::CommandError] If source cannot be found. # @return [String] The source for the module. def source @source ||= primary_candidate.source end # @return [String] Return the associated file for the # module from YARD, if one exists. def yard_file YARD::Registry.at(name).file if yard_docs? end # @return [Fixnum] Return the associated line for the # module from YARD, if one exists. def yard_line YARD::Registry.at(name).line if yard_docs? end # @return [String] Return the YARD docs for this module. def yard_doc YARD::Registry.at(name).docstring.to_s if yard_docs? end # Return a candidate for this module of specified rank. A `rank` # of 0 is equivalent to the 'primary candidate', which is the # module definition with the highest number of methods. A `rank` # of 1 is the module definition with the second highest number of # methods, and so on. Module candidates are necessary as modules # can be reopened multiple times and in multiple places in Ruby, # the candidate API gives you access to the module definition # representing each of those reopenings. # @raise [Pry::CommandError] If the `rank` is out of range. That # is greater than `number_of_candidates - 1`. # @param [Fixnum] rank # @return [Pry::WrappedModule::Candidate] def candidate(rank) @memoized_candidates[rank] ||= Candidate.new(self, rank) end # @return [Fixnum] The number of candidate definitions for the # current module. def number_of_candidates method_candidates.count end # @note On JRuby 1.9 and higher, in certain conditions, this method chucks # away its ability to be quick (when there are lots of monkey patches, # like in Rails). However, it should be efficient enough on other rubies. # @see https://github.com/jruby/jruby/issues/525 # @return [Enumerator, Array] on JRuby 1.9 and higher returns Array, on # other rubies returns Enumerator def candidates enum = generator.new do |y| (0...number_of_candidates).each do |num| y.yield candidate(num) end end Pry::Helpers::BaseHelpers.jruby_19? ? enum.to_a : enum end # @return [Boolean] Whether YARD docs are available for this module. def yard_docs? !!(defined?(YARD) && YARD::Registry.at(name)) end # @param [Fixnum] times How far to travel up the ancestor chain. # @return [Pry::WrappedModule, nil] The wrapped module that is the # superclass. # When `self` is a `Module` then return the # nth ancestor, otherwise (in the case of classes) return the # nth ancestor that is a class. def super(times=1) return self if times.zero? if wrapped.is_a?(Class) sup = ancestors.select { |v| v.is_a?(Class) }[times] else sup = ancestors[times] end Pry::WrappedModule(sup) if sup end private # Ruby 1.8 doesn't support `Enumerator` (it's called Generator instead) # # @return [Object] Return the appropriate generator class. def generator @generator ||= if defined?(Enumerator) Enumerator else require 'generator' Generator end end # @return [Pry::WrappedModule::Candidate] The candidate of rank 0, # that is the 'monkey patch' of this module with the highest # number of methods. It is considered the 'canonical' definition # for the module. def primary_candidate @primary_candidate ||= candidate(0) end # @return [Array>] The array of `Pry::Method` objects, # there are two associated with each candidate. The first is the 'base # method' for a candidate and it serves as the start point for # the search in uncovering the module definition. The second is # the last method defined for that candidate and it is used to # speed up source code extraction. def method_candidates @method_candidates ||= all_source_locations_by_popularity.map do |group| methods_sorted_by_source_line = group.last.sort_by(&:source_line) [methods_sorted_by_source_line.first, methods_sorted_by_source_line.last] end end # A helper method. def all_source_locations_by_popularity return @all_source_locations_by_popularity if @all_source_locations_by_popularity ims = all_relevant_methods_for(wrapped) @all_source_locations_by_popularity = ims.group_by { |v| Array(v.source_location).first }. sort_by do |path, methods| expanded = File.expand_path(path) load_order = $LOADED_FEATURES.index{ |file| expanded.end_with?(file) } [-methods.size, load_order || (1.0 / 0.0)] end end # We only want methods that have a non-nil `source_location`. We also # skip some spooky internal methods. # (i.e we skip `__class_init__` because it's an odd rbx specific thing that causes tests to fail.) # @return [Array] def all_relevant_methods_for(mod) methods = all_methods_for(mod).select(&:source_location). reject{ |x| x.name == '__class_init__' || method_defined_by_forwardable_module?(x) } return methods unless methods.empty? safe_send(mod, :constants).map do |const_name| if const = nested_module?(mod, const_name) all_relevant_methods_for(const) else [] end end.flatten end # Return all methods (instance methods and class methods) for a # given module. # @return [Array] def all_methods_for(mod) all_from_common(mod, :instance_method) + all_from_common(mod, :method) end # FIXME: a variant of this method is also found in Pry::Method def all_from_common(mod, method_type) %w(public protected private).map do |visibility| safe_send(mod, :"#{visibility}_#{method_type}s", false).select do |method_name| if method_type == :method safe_send(mod, method_type, method_name).owner == class << mod; self; end else safe_send(mod, method_type, method_name).owner == mod end end.map do |method_name| Pry::Method.new(safe_send(mod, method_type, method_name), :visibility => visibility.to_sym) end end.flatten end def nested_module?(parent, name) return if safe_send(parent, :autoload?, name) child = safe_send(parent, :const_get, name) return unless Module === child return unless safe_send(child, :name) == "#{safe_send(parent, :name)}::#{name}" child end # Detect methods that are defined with `def_delegator` from the Forwardable # module. We want to reject these methods as they screw up module # extraction since the `source_location` for such methods points at forwardable.rb # TODO: make this more robust as valid user-defined files called # forwardable.rb are also skipped. def method_defined_by_forwardable_module?(method) method.source_location.first =~ /forwardable\.rb/ end # memoized lines for file def lines_for_file(file) @lines_for_file ||= {} if file == Pry.eval_path @lines_for_file[file] ||= Pry.line_buffer.drop(1) else @lines_for_file[file] ||= File.readlines(file) end end end end