# -*- coding: utf-8 -*- ## # Pry is a powerful alternative to the standard IRB shell for Ruby. It # features syntax highlighting, a flexible plugin architecture, runtime # invocation and source and documentation browsing. # # Pry can be started similar to other command line utilities by simply running # the following command: # # pry # # Once inside Pry you can invoke the help message: # # help # # This will show a list of available commands and their usage. For more # information about Pry you can refer to the following resources: # # * http://pry.github.com/ # * https://github.com/pry/pry # * the IRC channel, which is #pry on the Freenode network # class Pry attr_accessor :binding_stack attr_accessor :custom_completions attr_accessor :eval_string attr_accessor :backtrace attr_accessor :suppress_output attr_accessor :last_result attr_accessor :last_file attr_accessor :last_dir attr_reader :last_exception attr_reader :command_state attr_reader :exit_value attr_reader :input_array attr_reader :output_array attr_reader :config extend Pry::Config::Convenience config_shortcut(*Pry::Config.shortcuts) EMPTY_COMPLETIONS = [].freeze # Create a new {Pry} instance. # @param [Hash] options # @option options [#readline] :input # The object to use for input. # @option options [#puts] :output # The object to use for output. # @option options [Pry::CommandBase] :commands # The object to use for commands. # @option options [Hash] :hooks # The defined hook Procs. # @option options [Array] :prompt # The array of Procs to use for prompts. # @option options [Proc] :print # The Proc to use for printing return values. # @option options [Boolean] :quiet # Omit the `whereami` banner when starting. # @option options [Array] :backtrace # The backtrace of the session's `binding.pry` line, if applicable. # @option options [Object] :target # The initial context for this session. def initialize(options={}) @binding_stack = [] @indent = Pry::Indent.new @command_state = {} @eval_string = "" @backtrace = options.delete(:backtrace) || caller target = options.delete(:target) @config = Pry::Config.new config.merge!(options) push_prompt(config.prompt) @input_array = Pry::HistoryArray.new config.memory_size @output_array = Pry::HistoryArray.new config.memory_size @custom_completions = config.command_completions set_last_result nil @input_array << nil push_initial_binding(target) exec_hook(:when_started, target, options, self) end # The current prompt. # This is the prompt at the top of the prompt stack. # # @example # self.prompt = Pry::SIMPLE_PROMPT # self.prompt # => Pry::SIMPLE_PROMPT # # @return [Array] Current prompt. def prompt prompt_stack.last end def prompt=(new_prompt) if prompt_stack.empty? push_prompt new_prompt else prompt_stack[-1] = new_prompt end end # Initialize this instance by pushing its initial context into the binding # stack. If no target is given, start at the top level. def push_initial_binding(target=nil) push_binding(target || Pry.toplevel_binding) end # The currently active `Binding`. # @return [Binding] The currently active `Binding` for the session. def current_binding binding_stack.last end alias current_context current_binding # support previous API # Push a binding for the given object onto the stack. If this instance is # currently stopped, mark it as usable again. def push_binding(object) @stopped = false binding_stack << Pry.binding_for(object) end # # Generate completions. # # @param [String] input # What the user has typed so far # # @return [Array] # Possible completions # def complete(str) return EMPTY_COMPLETIONS unless config.completer Pry.critical_section do completer = config.completer.new(config.input, self) completer.call str, target: current_binding, custom_completions: custom_completions.call.push(*sticky_locals.keys) end end # # Injects a local variable into the provided binding. # # @param [String] name # The name of the local to inject. # # @param [Object] value # The value to set the local to. # # @param [Binding] b # The binding to set the local on. # # @return [Object] # The value the local was set to. # def inject_local(name, value, b) value = Proc === value ? value.call : value if b.respond_to?(:local_variable_set) b.local_variable_set name, value else # < 2.1 begin Pry.current[:pry_local] = value b.eval "#{name} = ::Pry.current[:pry_local]" ensure Pry.current[:pry_local] = nil end end end undef :memory_size if method_defined? :memory_size # @return [Integer] The maximum amount of objects remembered by the inp and # out arrays. Defaults to 100. def memory_size @output_array.max_size end undef :memory_size= if method_defined? :memory_size= def memory_size=(size) @input_array = Pry::HistoryArray.new(size) @output_array = Pry::HistoryArray.new(size) end # Inject all the sticky locals into the current binding. def inject_sticky_locals! sticky_locals.each_pair do |name, value| inject_local(name, value, current_binding) end end # Add a sticky local to this Pry instance. # A sticky local is a local that persists between all bindings in a session. # @param [Symbol] name The name of the sticky local. # @yield The block that defines the content of the local. The local # will be refreshed at each tick of the repl loop. def add_sticky_local(name, &block) config.extra_sticky_locals[name] = block end def sticky_locals { _in_: input_array, _out_: output_array, _pry_: self, _ex_: last_exception && last_exception.wrapped_exception, _file_: last_file, _dir_: last_dir, _: proc { last_result }, __: proc { output_array[-2] } }.merge(config.extra_sticky_locals) end # Reset the current eval string. If the user has entered part of a multiline # expression, this discards that input. def reset_eval_string @eval_string = "" end # Pass a line of input to Pry. # # This is the equivalent of `Binding#eval` but with extra Pry! # # In particular: # 1. Pry commands will be executed immediately if the line matches. # 2. Partial lines of input will be queued up until a complete expression has # been accepted. # 3. Output is written to `#output` in pretty colours, not returned. # # Once this method has raised an exception or returned false, this instance # is no longer usable. {#exit_value} will return the session's breakout # value if applicable. # # @param [String?] line The line of input; `nil` if the user types `` # @option options [Boolean] :generated Whether this line was generated automatically. # Generated lines are not stored in history. # @return [Boolean] Is Pry ready to accept more input? # @raise [Exception] If the user uses the `raise-up` command, this method # will raise that exception. def eval(line, options={}) return false if @stopped exit_value = nil exception = catch(:raise_up) do exit_value = catch(:breakout) do handle_line(line, options) # We use 'return !@stopped' here instead of 'return true' so that if # handle_line has stopped this pry instance (e.g. by opening _pry_.repl and # then popping all the bindings) we still exit immediately. return !@stopped end exception = false end @stopped = true @exit_value = exit_value # TODO: make this configurable? raise exception if exception return false end def handle_line(line, options) if line.nil? config.control_d_handler.call(@eval_string, self) return end ensure_correct_encoding!(line) Pry.history << line unless options[:generated] @suppress_output = false inject_sticky_locals! begin if !process_command_safely(line.lstrip) @eval_string << "#{line.chomp}\n" if !line.empty? || !@eval_string.empty? end rescue RescuableException => e self.last_exception = e result = e Pry.critical_section do show_result(result) end return end # This hook is supposed to be executed after each line of ruby code # has been read (regardless of whether eval_string is yet a complete expression) exec_hook :after_read, eval_string, self begin complete_expr = Pry::Code.complete_expression?(@eval_string) rescue SyntaxError => e output.puts "SyntaxError: #{e.message.sub(/.*syntax error, */m, '')}" reset_eval_string end if complete_expr if @eval_string =~ /;\Z/ || @eval_string.empty? || @eval_string =~ /\A *#.*\n\z/ @suppress_output = true end # A bug in jruby makes java.lang.Exception not rescued by # `rescue Pry::RescuableException` clause. # # * https://github.com/pry/pry/issues/854 # * https://jira.codehaus.org/browse/JRUBY-7100 # # Until that gets fixed upstream, treat java.lang.Exception # as an additional exception to be rescued explicitly. # # This workaround has a side effect: java exceptions specified # in `Pry.config.exception_whitelist` are ignored. jruby_exceptions = [] if Pry::Helpers::BaseHelpers.jruby? jruby_exceptions << Java::JavaLang::Exception end begin # Reset eval string, in case we're evaluating Ruby that does something # like open a nested REPL on this instance. eval_string = @eval_string reset_eval_string result = evaluate_ruby(eval_string) rescue RescuableException, *jruby_exceptions => e # Eliminate following warning: # warning: singleton on non-persistent Java type X # (http://wiki.jruby.org/Persistence) if Pry::Helpers::BaseHelpers.jruby? && e.class.respond_to?('__persistent__') e.class.__persistent__ = true end self.last_exception = e result = e end Pry.critical_section do show_result(result) end end throw(:breakout) if current_binding.nil? end private :handle_line # Potentially deprecated — Use `Pry::REPL.new(pry, :target => target).start` # (If nested sessions are going to exist, this method is fine, but a goal is # to come up with an alternative to nested sessions altogether.) def repl(target = nil) Pry::REPL.new(self, :target => target).start end def evaluate_ruby(code) inject_sticky_locals! exec_hook :before_eval, code, self result = current_binding.eval(code, Pry.eval_path, Pry.current_line) set_last_result(result, code) ensure update_input_history(code) exec_hook :after_eval, result, self end # Output the result or pass to an exception handler (if result is an exception). def show_result(result) if last_result_is_exception? exception_handler.call(output, result, self) elsif should_print? print.call(output, result, self) else # nothin' end rescue RescuableException => e # Being uber-paranoid here, given that this exception arose because we couldn't # serialize something in the user's program, let's not assume we can serialize # the exception either. begin output.puts "(pry) output error: #{e.inspect}" rescue RescuableException => e if last_result_is_exception? output.puts "(pry) output error: failed to show exception" else output.puts "(pry) output error: failed to show result" end end ensure output.flush if output.respond_to?(:flush) end # Force `eval_string` into the encoding of `val`. [Issue #284] def ensure_correct_encoding!(val) if @eval_string.empty? && val.respond_to?(:encoding) && val.encoding != @eval_string.encoding @eval_string.force_encoding(val.encoding) end end private :ensure_correct_encoding! # If the given line is a valid command, process it in the context of the # current `eval_string` and binding. # @param [String] val The line to process. # @return [Boolean] `true` if `val` is a command, `false` otherwise def process_command(val) val = val.chomp result = commands.process_line(val, :target => current_binding, :output => output, :eval_string => @eval_string, :pry_instance => self ) # set a temporary (just so we can inject the value we want into eval_string) Pry.current[:pry_cmd_result] = result # note that `result` wraps the result of command processing; if a # command was matched and invoked then `result.command?` returns true, # otherwise it returns false. if result.command? if !result.void_command? # the command that was invoked was non-void (had a return value) and so we make # the value of the current expression equal to the return value # of the command. @eval_string.replace "::Pry.current[:pry_cmd_result].retval\n" end true else false end end # Same as process_command, but outputs exceptions to `#output` instead of # raising. # @param [String] val The line to process. # @return [Boolean] `true` if `val` is a command, `false` otherwise def process_command_safely(val) process_command(val) rescue CommandError, Slop::InvalidOptionError, MethodSource::SourceNotFoundError => e Pry.last_internal_error = e output.puts "Error: #{e.message}" true end # Run the specified command. # @param [String] val The command (and its params) to execute. # @return [Pry::Command::VOID_VALUE] # @example # pry_instance.run_command("ls -m") def run_command(val) commands.process_line(val, :eval_string => @eval_string, :target => current_binding, :pry_instance => self, :output => output ) Pry::Command::VOID_VALUE end # Execute the specified hook. # @param [Symbol] name The hook name to execute # @param [*Object] args The arguments to pass to the hook # @return [Object, Exception] The return value of the hook or the exception raised # # If executing a hook raises an exception, we log that and then continue sucessfully. # To debug such errors, use the global variable $pry_hook_error, which is set as a # result. def exec_hook(name, *args, &block) e_before = hooks.errors.size hooks.exec_hook(name, *args, &block).tap do hooks.errors[e_before..-1].each do |e| output.puts "#{name} hook failed: #{e.class}: #{e.message}" output.puts "#{e.backtrace.first}" output.puts "(see _pry_.hooks.errors to debug)" end end end # Set the last result of an eval. # This method should not need to be invoked directly. # @param [Object] result The result. # @param [String] code The code that was run. def set_last_result(result, code="") @last_result_is_exception = false @output_array << result self.last_result = result unless code =~ /\A\s*\z/ end # # Set the last exception for a session. # # @param [Exception] e # the last exception. # def last_exception=(e) last_exception = Pry::LastException.new(e) @last_result_is_exception = true @output_array << last_exception @last_exception = last_exception end # Update Pry's internal state after evalling code. # This method should not need to be invoked directly. # @param [String] code The code we just eval'd def update_input_history(code) # Always push to the @input_array as the @output_array is always pushed to. @input_array << code if code Pry.line_buffer.push(*code.each_line) Pry.current_line += code.lines.count end end # @return [Boolean] True if the last result is an exception that was raised, # as opposed to simply an instance of Exception (like the result of # Exception.new) def last_result_is_exception? @last_result_is_exception end # Whether the print proc should be invoked. # Currently only invoked if the output is not suppressed. # @return [Boolean] Whether the print proc should be invoked. def should_print? !@suppress_output end # Returns the appropriate prompt to use. # @return [String] The prompt. def select_prompt object = current_binding.eval('self') open_token = @indent.open_delimiters.any? ? @indent.open_delimiters.last : @indent.stack.last c = Pry::Config.from_hash({ :object => object, :nesting_level => binding_stack.size - 1, :open_token => open_token, :session_line => Pry.history.session_line_count + 1, :history_line => Pry.history.history_line_count + 1, :expr_number => input_array.count, :_pry_ => self, :binding_stack => binding_stack, :input_array => input_array, :eval_string => @eval_string, :cont => !@eval_string.empty?}) Pry.critical_section do # If input buffer is empty then use normal prompt if eval_string.empty? generate_prompt(Array(prompt).first, c) # Otherwise use the wait prompt (indicating multi-line expression) else generate_prompt(Array(prompt).last, c) end end end def generate_prompt(prompt_proc, conf) if prompt_proc.arity == 1 prompt_proc.call(conf) else prompt_proc.call(conf.object, conf.nesting_level, conf._pry_) end end private :generate_prompt # the array that the prompt stack is stored in def prompt_stack @prompt_stack ||= Array.new end private :prompt_stack # Pushes the current prompt onto a stack that it can be restored from later. # Use this if you wish to temporarily change the prompt. # @param [Array] new_prompt # @return [Array] new_prompt # @example # new_prompt = [ proc { '>' }, proc { '>>' } ] # push_prompt(new_prompt) # => new_prompt def push_prompt(new_prompt) prompt_stack.push new_prompt end # Pops the current prompt off of the prompt stack. # If the prompt you are popping is the last prompt, it will not be popped. # Use this to restore the previous prompt. # @return [Array] Prompt being popped. # @example # prompt1 = [ proc { '>' }, proc { '>>' } ] # prompt2 = [ proc { '$' }, proc { '>' } ] # pry = Pry.new :prompt => prompt1 # pry.push_prompt(prompt2) # pry.pop_prompt # => prompt2 # pry.pop_prompt # => prompt1 # pry.pop_prompt # => prompt1 def pop_prompt prompt_stack.size > 1 ? prompt_stack.pop : prompt end undef :pager if method_defined? :pager # Returns the currently configured pager # @example # _pry_.pager.page text def pager Pry::Pager.new(self) end undef :output if method_defined? :output # Returns an output device # @example # _pry_.output.puts "ohai!" def output Pry::Output.new(self) end # Raise an exception out of Pry. # # See Kernel#raise for documentation of parameters. # See rb_make_exception for the inbuilt implementation. # # This is necessary so that the raise-up command can tell the # difference between an exception the user has decided to raise, # and a mistake in specifying that exception. # # (i.e. raise-up RunThymeError.new should not be the same as # raise-up NameError, "unititialized constant RunThymeError") # def raise_up_common(force, *args) exception = if args == [] last_exception || RuntimeError.new elsif args.length == 1 && args.first.is_a?(String) RuntimeError.new(args.first) elsif args.length > 3 raise ArgumentError, "wrong number of arguments" elsif !args.first.respond_to?(:exception) raise TypeError, "exception class/object expected" elsif args.length === 1 args.first.exception else args.first.exception(args[1]) end raise TypeError, "exception object expected" unless exception.is_a? Exception exception.set_backtrace(args.length === 3 ? args[2] : caller(1)) if force || binding_stack.one? binding_stack.clear throw :raise_up, exception else binding_stack.pop raise exception end end def raise_up(*args); raise_up_common(false, *args); end def raise_up!(*args); raise_up_common(true, *args); end # Convenience accessor for the `quiet` config key. # @return [Boolean] def quiet? config.quiet end end