# -*- coding: utf-8 -*- require 'pry/helpers/documentation_helpers' class Pry class << self # If the given object is a `Pry::Method`, return it unaltered. If it's # anything else, return it wrapped in a `Pry::Method` instance. def Method(obj) if obj.is_a? Pry::Method obj else Pry::Method.new(obj) end end end # This class wraps the normal `Method` and `UnboundMethod` classes # to provide extra functionality useful to Pry. class Method require 'pry/method/weird_method_locator' require 'pry/method/disowned' extend Helpers::BaseHelpers include Helpers::BaseHelpers include RbxMethod if rbx? include Helpers::DocumentationHelpers include CodeObject::Helpers class << self # Given a string representing a method name and optionally a binding to # search in, find and return the requested method wrapped in a `Pry::Method` # instance. # # @param [String, nil] name The name of the method to retrieve, or `nil` to # delegate to `from_binding` instead. # @param [Binding] target The context in which to search for the method. # @param [Hash] options # @option options [Boolean] :instance Look for an instance method if `name` doesn't # contain any context. # @option options [Boolean] :methods Look for a bound/singleton method if `name` doesn't # contain any context. # @return [Pry::Method, nil] A `Pry::Method` instance containing the requested # method, or `nil` if no method could be located matching the parameters. def from_str(name, target=TOPLEVEL_BINDING, options={}) if name.nil? from_binding(target) elsif name.to_s =~ /(.+)\#(\S+)\Z/ context, meth_name = $1, $2 from_module(target.eval(context), meth_name, target) elsif name.to_s =~ /(.+)(\.|::)(\S+)\Z/ context, meth_name = $1, $3 from_obj(target.eval(context), meth_name, target) elsif options[:instance] from_module(target.eval("self"), name, target) elsif options[:methods] from_obj(target.eval("self"), name, target) else from_str(name, target, :instance => true) or from_str(name, target, :methods => true) end rescue Pry::RescuableException nil end # Given a `Binding`, try to extract the `::Method` it originated from and # use it to instantiate a `Pry::Method`. Return `nil` if this isn't # possible. # # @param [Binding] b # @return [Pry::Method, nil] # def from_binding(b) meth_name = b.eval('::Kernel.__method__') if [:__script__, nil].include?(meth_name) nil else method = begin if Object === b.eval('self') new(Kernel.instance_method(:method).bind(b.eval("self")).call(meth_name)) else new(b.eval('class << self; self; end.instance_method(::Kernel.__method__).bind(self)')) end rescue NameError, NoMethodError Disowned.new(b.eval('self'), meth_name.to_s) end if WeirdMethodLocator.weird_method?(method, b) WeirdMethodLocator.new(method, b).get_method || method else method end end end # In order to support 2.0 Refinements we need to look up methods # inside the relevant Binding. # @param [Object] obj The owner/receiver of the method. # @param [Symbol] method_name The name of the method. # @param [Symbol] method_type The type of method: :method or :instance_method # @param [Binding] target The binding where the method is looked up. # @return [Method, UnboundMethod] The 'refined' method object. def lookup_method_via_binding(obj, method_name, method_type, target=TOPLEVEL_BINDING) Pry.current[:obj] = obj Pry.current[:name] = method_name receiver = obj.is_a?(Module) ? "Module" : "Kernel" target.eval("::#{receiver}.instance_method(:#{method_type}).bind(Pry.current[:obj]).call(Pry.current[:name])") ensure Pry.current[:obj] = Pry.current[:name] = nil end # Given a `Class` or `Module` and the name of a method, try to # instantiate a `Pry::Method` containing the instance method of # that name. Return `nil` if no such method exists. # # @param [Class, Module] klass # @param [String] name # @param [Binding] target The binding where the method is looked up. # @return [Pry::Method, nil] def from_class(klass, name, target=TOPLEVEL_BINDING) new(lookup_method_via_binding(klass, name, :instance_method, target)) rescue nil end alias from_module from_class # Given an object and the name of a method, try to instantiate # a `Pry::Method` containing the method of that name bound to # that object. Return `nil` if no such method exists. # # @param [Object] obj # @param [String] name # @param [Binding] target The binding where the method is looked up. # @return [Pry::Method, nil] def from_obj(obj, name, target=TOPLEVEL_BINDING) new(lookup_method_via_binding(obj, name, :method, target)) rescue nil end # Get all of the instance methods of a `Class` or `Module` # @param [Class,Module] klass # @param [Boolean] include_super Whether to include methods from ancestors. # @return [Array[Pry::Method]] def all_from_class(klass, include_super=true) all_from_common(klass, :instance_method, include_super) end # Get all of the methods on an `Object` # @param [Object] obj # @param [Boolean] include_super Whether to include methods from ancestors. # @return [Array[Pry::Method]] def all_from_obj(obj, include_super=true) all_from_common(obj, :method, include_super) end # Get every `Class` and `Module`, in order, that will be checked when looking # for an instance method to call on this object. # @param [Object] obj # @return [Array[Class, Module]] def resolution_order(obj) if Class === obj singleton_class_resolution_order(obj) + instance_resolution_order(Class) else klass = singleton_class(obj) rescue obj.class instance_resolution_order(klass) end end # Get every `Class` and `Module`, in order, that will be checked when looking # for methods on instances of the given `Class` or `Module`. # This does not treat singleton classes of classes specially. # @param [Class, Module] klass # @return [Array[Class, Module]] def instance_resolution_order(klass) # include klass in case it is a singleton class, ([klass] + klass.ancestors).uniq end def method_definition?(name, definition_line) singleton_method_definition?(name, definition_line) || instance_method_definition?(name, definition_line) end def singleton_method_definition?(name, definition_line) /^define_singleton_method\(?\s*[:\"\']#{name}|^def\s*self\.#{name}/ =~ definition_line.strip end def instance_method_definition?(name, definition_line) /^define_method\(?\s*[:\"\']#{name}|^def\s*#{name}/ =~ definition_line.strip end private # See all_from_class and all_from_obj. # If method_type is :instance_method, obj must be a `Class` or a `Module` # If method_type is :method, obj can be any `Object` # # N.B. we pre-cache the visibility here to avoid O(N²) behaviour in "ls". def all_from_common(obj, method_type, include_super=true) %w(public protected private).map do |visibility| safe_send(obj, :"#{visibility}_#{method_type}s", include_super).map do |method_name| new(safe_send(obj, method_type, method_name), :visibility => visibility.to_sym) end end.flatten(1) end # Get the singleton classes of superclasses that could define methods on # the given class object, and any modules they include. # If a module is included at multiple points in the ancestry, only # the lowest copy will be returned. def singleton_class_resolution_order(klass) resolution_order = klass.ancestors.map do |anc| [singleton_class(anc)] + singleton_class(anc).included_modules if anc.is_a?(Class) end.compact.flatten(1) resolution_order.reverse.uniq.reverse - Class.included_modules end def singleton_class(obj); class << obj; self; end end end # A new instance of `Pry::Method` wrapping the given `::Method`, `UnboundMethod`, or `Proc`. # # @param [::Method, UnboundMethod, Proc] method # @param [Hash] known_info Can be used to pre-cache expensive to compute stuff. # @return [Pry::Method] def initialize(method, known_info={}) @method = method @visibility = known_info[:visibility] end # Get the name of the method as a String, regardless of the underlying Method#name type. # @return [String] def name @method.name.to_s end # Get the owner of the method as a Pry::Module # @return [Pry::Module] def wrapped_owner @wrapped_owner ||= Pry::WrappedModule.new(owner) end # Get underlying object wrapped by this Pry::Method instance # @return [Method, UnboundMethod, Proc] def wrapped @method end # Is the method undefined? (aka `Disowned`) # @return [Boolean] false def undefined? false end # Get the name of the method including the class on which it was defined. # @example # method(:puts).method_name # => "Kernel.puts" # @return [String] def name_with_owner "#{wrapped_owner.method_prefix}#{name}" end # @return [String, nil] The source code of the method, or `nil` if it's unavailable. def source @source ||= case source_type when :c info = pry_doc_info if info and info.source code = strip_comments_from_c_code(info.source) end when :ruby # clone of MethodSource.source_helper that knows to use our # hacked version of source_location for rbx core methods, and # our input buffer for methods defined in (pry) file, line = *source_location raise SourceNotFoundError, "Could not locate source for #{name_with_owner}!" unless file begin code = Pry::Code.from_file(file).expression_at(line) rescue SyntaxError => e raise MethodSource::SourceNotFoundError.new(e.message) end strip_leading_whitespace(code) end end # Can we get the source code for this method? # @return [Boolean] def source? !!source rescue MethodSource::SourceNotFoundError false end # @return [String, nil] The documentation for the method, or `nil` if it's # unavailable. # @raise [CommandError] Raises when the method was defined in the REPL. def doc @doc ||= case source_type when :c info = pry_doc_info info.docstring if info when :ruby if rbx? && !pry_method? get_comment_content(core_doc) elsif pry_method? get_comment_content(doc_for_pry_method) else get_comment_content(@method.comment) end end end # @return [Symbol] The source type of the method. The options are # `:ruby` for Ruby methods or `:c` for methods written in C. def source_type source_location.nil? ? :c : :ruby end def source_location if @method.source_location && rbx? file, line = @method.source_location [RbxPath.convert_path_to_full(file), line] else @method.source_location end end # @return [String, nil] The name of the file the method is defined in, or # `nil` if the filename is unavailable. def source_file if source_location.nil? if !rbx? and source_type == :c info = pry_doc_info info.file if info end else source_location.first end end # @return [Fixnum, nil] The line of code in `source_file` which begins # the method's definition, or `nil` if that information is unavailable. def source_line source_location.nil? ? nil : source_location.last end # @return [Range, nil] The range of lines in `source_file` which contain # the method's definition, or `nil` if that information is unavailable. def source_range source_location.nil? ? nil : (source_line)..(source_line + source.lines.count - 1) end # @return [Symbol] The visibility of the method. May be `:public`, # `:protected`, or `:private`. def visibility @visibility ||= if owner.public_instance_methods.any? { |m| m.to_s == name } :public elsif owner.protected_instance_methods.any? { |m| m.to_s == name } :protected elsif owner.private_instance_methods.any? { |m| m.to_s == name } :private else :none end end # @return [String] A representation of the method's signature, including its # name and parameters. Optional and "rest" parameters are marked with `*` # and block parameters with `&`. If the parameter names are unavailable, # they're given numbered names instead. # Paraphrased from `awesome_print` gem. def signature if respond_to?(:parameters) args = parameters.inject([]) do |arr, (type, name)| name ||= (type == :block ? 'block' : "arg#{arr.size + 1}") arr << case type when :req then name.to_s when :opt then "#{name}=?" when :rest then "*#{name}" when :block then "&#{name}" else '?' end end else args = (1..arity.abs).map { |i| "arg#{i}" } args[-1] = "*#{args[-1]}" if arity < 0 end "#{name}(#{args.join(', ')})" end # @return [Pry::Method, nil] The wrapped method that is called when you # use "super" in the body of this method. def super(times=1) if UnboundMethod === @method sup = super_using_ancestors(Pry::Method.instance_resolution_order(owner), times) else sup = super_using_ancestors(Pry::Method.resolution_order(receiver), times) sup &&= sup.bind(receiver) end Pry::Method.new(sup) if sup end # @return [String, nil] The original name the method was defined under, # before any aliasing, or `nil` if it can't be determined. def original_name return nil if source_type != :ruby method_name_from_first_line(source.lines.first) end # @return [Boolean] Was the method defined outside a source file? def dynamically_defined? !!(source_file and source_file =~ /(\(.*\))|<.*>/) end # @return [Boolean] Whether the method is unbound. def unbound_method? is_a?(::UnboundMethod) end # @return [Boolean] Whether the method is bound. def bound_method? is_a?(::Method) end # @return [Boolean] Whether the method is a singleton method. def singleton_method? wrapped_owner.singleton_class? end # @return [Boolean] Was the method defined within the Pry REPL? def pry_method? source_file == Pry.eval_path end # @return [Array] All known aliases for the method. # @note On Ruby 1.8 this method always returns an empty Array for methods # implemented in C. def aliases owner = @method.owner # Avoid using `to_sym` on {Method#name}, which returns a `String`, because # it won't be garbage collected. name = @method.name alias_list = owner.instance_methods.combination(2).select do |pair| pair.include?(name) && owner.instance_method(pair.first) == owner.instance_method(pair.last) end.flatten alias_list.delete(name) alias_list.map(&:to_s) end # @return [Boolean] Is the method definitely an alias? def alias? name != original_name end # @return [Boolean] def ==(obj) if obj.is_a? Pry::Method obj == @method else @method == obj end end # @param [Class] klass # @return [Boolean] def is_a?(klass) klass == Pry::Method or @method.is_a?(klass) end alias kind_of? is_a? # @param [String, Symbol] method_name # @return [Boolean] def respond_to?(method_name) super or @method.respond_to?(method_name) end # Delegate any unknown calls to the wrapped method. def method_missing(method_name, *args, &block) @method.send(method_name, *args, &block) end private # @return [YARD::CodeObjects::MethodObject] # @raise [CommandError] when the method can't be found or `pry-doc` isn't installed. def pry_doc_info if Pry.config.has_pry_doc Pry::MethodInfo.info_for(@method) or raise CommandError, "Cannot locate this method: #{name}. (source_location returns nil)" else fail_msg = "Cannot locate this method: #{name}." if mri_18? || mri_19? fail_msg += ' Try `gem-install pry-doc` to get access to Ruby Core documentation.' end raise CommandError, fail_msg end end # FIXME: a very similar method to this exists on WrappedModule: extract_doc_for_candidate def doc_for_pry_method _, line_num = source_location buffer = "" Pry.line_buffer[0..(line_num - 1)].each do |line| # Add any line that is a valid ruby comment, # but clear as soon as we hit a non comment line. if (line =~ /^\s*#/) || (line =~ /^\s*$/) buffer << line.lstrip else buffer.replace("") end end buffer end # @param [Class, Module] ancestors The ancestors to investigate # @return [Method] The unwrapped super-method def super_using_ancestors(ancestors, times=1) next_owner = self.owner times.times do i = ancestors.index(next_owner) + 1 while ancestors[i] && !(ancestors[i].method_defined?(name) || ancestors[i].private_method_defined?(name)) i += 1 end next_owner = ancestors[i] or return nil end safe_send(next_owner, :instance_method, name) rescue nil end # @param [String] first_ln The first line of a method definition. # @return [String, nil] def method_name_from_first_line(first_ln) return nil if first_ln.strip !~ /^def / tokens = CodeRay.scan(first_ln, :ruby) tokens = tokens.tokens.each_slice(2) if tokens.respond_to?(:tokens) tokens.each_cons(2) do |t1, t2| if t2.last == :method || t2.last == :ident && t1 == [".", :operator] return t2.first end end nil end end end