Pry ============= (C) John Mair (banisterfiend) 2010 _attach an irb-like session to any object at runtime_ Pry is a simple Ruby REPL (Read-Eval-Print-Loop) that specializes in the interactive manipulation of objects during the running of a program. It is not based on the IRB codebase, and implements some unique REPL commands such as `show_method` and `show_doc` * Install the [gem](https://rubygems.org/gems/pry): `gem install pry` * Read the [documentation](http://rdoc.info/github/banister/pry/master/file/README.markdown) * See the [source code](http://github.com/banister/pry) Example: Interacting with an object at runtime --------------------------------------- With the `Object#pry` method we can pry (open an irb-like session) on an object. In the example below we open a Pry session for the `Test` class and execute a method and add an instance variable. The current thread is halted for the duration of the session. require 'pry' class Test def self.hello() "hello world" end end Test.pry # Pry session begins on stdin Beginning Pry session for Test pry(Test)> self => Test pry(Test)> hello => "hello world" pry(Test)> @y = 20 => 20 pry(Test)> exit Ending Pry session for Test # program resumes here If we now inspect the `Test` object we can see our changes have had effect: Test.instance_variable_get(:@y) #=> 20 ### Alternative Syntax You can also use the `Pry.start(obj)` or `pry(obj)` syntax to start a pry session on `obj`. e.g Pry.start(5) Beginning Pry session for 5 pry(5)> OR pry(6) beginning Pry session for 6 pry(6)> Example: Pry sessions can nest ----------------------------------------------- Here we will begin Pry at top-level, then pry on a class and then on an instance variable inside that class: # Pry.start() without parameters begins a Pry session on top-level (main) Pry.start Beginning Pry session for main pry(main)> class Hello pry(main)* @x = 20 pry(main)* end => 20 pry(main)> Hello.pry Beginning Pry session for Hello pry(Hello):1> instance_variables => [:@x] pry(Hello):1> @x.pry Beginning Pry session for 20 pry(20:2)> self + 10 => 30 pry(20:2)> exit Ending Pry session for 20 pry(Hello):1> exit Ending Pry session for Hello pry(main)> exit Ending Pry session for main The number after the `:` in the pry prompt indicates the nesting level. To display more information about nesting, use the `nesting` command. E.g pry("friend":3)> nesting Nesting status: 0. main (Pry top level) 1. Hello 2. 100 3. "friend" => nil We can then jump back to any of the previous nesting levels by using the `jump_to` command: pry("friend":3)> jump_to 1 Ending Pry session for "friend" Ending Pry session for 100 => 100 pry(Hello):1> If we just want to go back one level of nesting we can of course use the `quit` or `exit` or `back` commands. To break out of all levels of Pry nesting and return immediately to the calling process use `exit_all`: pry("friend":3)> exit_all Ending Pry session for "friend" Ending Pry session for 100 Ending Pry session for Hello Ending Pry session for main => main # program resumes here Features and limitations ------------------------ Pry is an irb-like clone with an emphasis on interactively examining and manipulating objects during the running of a program. Its primary utility is probably in debugging, though it may have other uses (such as implementing a quake-like console for games, for example). Here is a list of Pry's features along with some of its limitations given at the end. ###Features: * Pry can be invoked at any time and on any object in the running program. * Pry sessions can nest arbitrarily deeply -- to go back one level of nesting type 'exit' or 'quit' or 'back' * Use `_` to recover last result. * Use `_pry_` to reference the Pry instance managing the current session. * Pry supports tab completion. * Pry has multi-line support built in. * Pry has special commands not found in many other Ruby REPLs: `show_method`, `show_doc` `jump_to`, `ls`, `cd`, `cat` * Pry gives good control over nested sessions (important when exploring complicated runtime state) * Pry is not based on the IRB codebase. * Pry allows significant customizability. * Pry uses [RubyParser](https://github.com/seattlerb/ruby_parser) to validate expressions in 1.8, and [Ripper](http://rdoc.info/docs/ruby-core/1.9.2/Ripper) for 1.9. * Pry implements all the methods in the REPL chain separately: `Pry#r` for reading; `Pry#re` for eval; `Pry#rep` for printing; and `Pry#repl` for the loop (`Pry.start` simply wraps `Pry.new.repl`). You can invoke any of these methods directly depending on exactly what aspect of the functionality you need. ###Limitations: * Pry does not pretend to be a replacement for `irb`, and so does not have an executable. It is designed to be used by other programs, not on its own. For a full-featured `irb` replacement see [ripl](https://github.com/cldwalker/ripl) * Pry's `show_method` and `show_doc` commands do not work in Ruby 1.8. Commands ----------- ### The Pry API: * `Pry.start()` Starts a Read-Eval-Print-Loop on the object it receives as a parameter. In the case of no parameter it operates on top-level (main). It can receive any object or a `Binding` object as parameter. `Pry.start()` is implemented as `Pry.new.repl()` * `obj.pry` and `pry(obj)` may also be used as alternative syntax to `Pry.start(obj)`. However there are some differences. `obj.pry` opens a Pry session on the receiver whereas `Pry.start` (with no parameter) will start a Pry session on top-level. The other form of the `pry` method: `pry(obj)` will also start a Pry session on its parameter. The `pry` method invoked by itself, with no explict receiver and no parameter will start a Pry session on the implied receiver. It is perhaps more useful to invoke it in this form `pry(binding)` or `binding.pry` so as to get access to locals in the current context. Another difference is that `Pry.start()` accepts a second parameter that is a hash of configuration options (discussed further, below). * If, for some reason you do not want to 'loop' then use `Pry.new.rep()`; it only performs the Read-Eval-Print section of the REPL - it ends the session after just one line of input. It takes the same parameters as `Pry#repl()` * Likewise `Pry#re()` only performs the Read-Eval section of the REPL, it returns the result of the evaluation or an Exception object in case of error. It also takes the same parameters as `Pry#repl()` * Similarly `Pry#r()` only performs the Read section of the REPL, only returning the Ruby expression (as a string). It takes the same parameters as all the others. ### Session commands Pry supports a few commands inside the session itself. These commands are not methods and must start at the beginning of a line, with no whitespace in between. If you want to access a method of the same name, prefix the invocation by whitespace. * Typing `!` on a line by itself will refresh the REPL - useful for getting you out of a situation if the parsing process goes wrong. * `status` shows status information about the current session. * `help` shows the list of session commands with brief explanations. * `exit` or `quit` or `back` will end the current Pry session and go back to the calling process or back one level of nesting (if there are nested sessions). * `ls` returns a list of local variables and instance variables in the current scope * `ls_methods` List all methods defined on immediate class of receiver. * `ls_imethods` List all instance methods defined on receiver. * `cat ` Calls `inspect` on `` * `cd ` Starts a `Pry` session on the variable . E.g `cd @x` * `show_method ` Displays the sourcecode for the method . E.g `show_method hello` * `show_imethod ` Displays the sourcecode for the instance method . E.g `show_imethod goodbye` * `show_doc ` Displays comments for `` * `show_idoc ` Displays comments for instance method `` * `exit_program` or `quit_program` will end the currently running program. * `nesting` Shows Pry nesting information. * `!pry` Starts a Pry session on the implied receiver; this can be used in the middle of an expression in multi-line input. * `jump_to ` Unwinds the Pry stack (nesting level) until the appropriate nesting level is reached -- as per the output of `nesting` * `exit_all` breaks out of all Pry nesting levels and returns to the calling process. * You can type `Pry.start(obj)` or `obj.pry` to nest another Pry session within the current one with `obj` as the receiver of the new session. Very useful when exploring large or complicated runtime state. Example Programs ---------------- Pry comes bundled with a few example programs to illustrate some features, see the `examples/` directory. * `example_input.rb` - Demonstrates how to set the `input` object. * `example_output.rb` - Demonstrates how to set the `output` object. * `example_hooks.rb` - Demonstrates how to set the `hooks` hash. * `example_print.rb` - Demonstrates how to set the `print` object. * `example_prompt.rb` - Demonstrates how to set the `prompt`. * `example_input2.rb` - An advanced `input` example. * `example_commands.rb` - Implementing a mathematical command set. * `example_commands_override.rb` - An advanced `commands` example. * `example_image_edit.rb` - A simple image editor using a Pry REPL (requires `Gosu` and `TexPlay` gems). Customizing Pry --------------- Pry supports customization of the input, the output, the commands, the hooks, the prompt, and 'print' (the "P" in REPL). Global customization, which applies to all Pry sessions, is done through invoking class accessors on the `Pry` class, the accessors are: * `Pry.input=` * `Pry.output=` * `Pry.commands=` * `Pry.hooks=` * `Pry.prompt=` * `Pry.print=` Local customization (applied to a single Pry session) is done by passing config hash options to `Pry.start()` or to `Pry.new()`; also the same accessors as described above for the `Pry` class exist for a Pry instance so that customization can occur during runtime. ### Input For input Pry accepts any object that implements the `readline` method. This includes `IO` objects, `StringIO`, `Readline` and custom objects. Pry initially defaults to using `Readline` for input. #### Example: Setting global input Setting Pry's global input causes all subsequent Pry instances to use this input by default: Pry.input = StringIO.new("@x = 10\nexit") Object.pry Object.instance_variable_get(:@x) #=> 10 The above will execute the code in the `StringIO` non-interactively. It gets all the input it needs from the `StringIO` and then exits the Pry session. Note it is important to end the session with 'exit' if you are running non-interactively or the Pry session will hang as it loops indefinitely awaiting new input. #### Example: Setting input for a specific session The settings for a specific session override the global settings (discussed above). There are two ways to set input for a specific pry session: At the point the session is started, or within the session itself (at runtime): ##### At session start Pry.start(Object, :input => StringIO.new("@x = 10\nexit")) Object.instance_variable_get(:@x) #=> 10 ##### At runtime If you want to set the input object within the session itself you use the special `_pry_` local variable which represents the Pry instance managing the current session; inside the session we type: _pry_.input = StringIO.new("@x = 10\nexit") Note we can also set the input object for the parent Pry session (if the current session is nested) like so: _pry_.parent.input = StringIO.new("@x = 10\nexit") ### Output For output Pry accepts any object that implements the `puts` method. This includes `IO` objects, `StringIO` and custom objects. Pry initially defaults to using `$stdout` for output. #### Example: Setting global output Setting Pry's global output causes all subsequent Pry instances to use this output by default: Pry.output = StringIO.new #### Example: Setting output for a specific session As per Input, given above, we set the local output as follows: ##### At session start Pry.start(Object, :output => StringIO.new("@x = 10\nexit")) ##### At runtime _pry_.output = StringIO.new ### Commands Pry commands are not methods; they are commands that are intercepted and executed before a Ruby eval takes place. Pry comes with a default command set (`Pry::Commands`), but these commands can be augmented or overriden by user-specified ones. The Pry command API is quite sophisticated supporting features such as: command set inheritance, importing of specific commands from another command set, deletion of commands, calling of commands within other commands, and so on. A valid Pry command object must inherit from `Pry::CommandBase` (or one of its subclasses) and use the special command API: #### Example: Defining a command object and setting it globally class MyCommands < Pry::CommandBase command "greet", "Greet the user." do |name| output.puts "Hello #{name.capitalize}, how are you?" end end Pry.commands = MyCommands Then inside a pry session: pry(main)> greet john hello John, how are you? => nil #### Example: Using a command object in a specific session As in the case of `input` and `output`: ##### At session start: Pry.start(self, :commands => MyCommands) ##### At runtime: _pry_.commands = MyCommands #### The command API The command API is defined by the `Pry::CommandBase` class (hence why all commands must inherit from it or a subclass). The API works as follows: ##### `command` method The `command` method defines a new command, its parameter is the name of the command and an optional second parameter is a description of the command. The associated block defines the action to be performed. The number of parameters in the block determine the number of parameters that will be sent to the command (from the Pry prompt) when it is invoked. Note that all parameters that are received will be strings; if a parameter is not received it will be set to `nil`. command "hello" do |x, y, z| puts "hello there #{x}, #{y}, and #{z}!" end Command aliases can also be defined - simply use an array of strings for the command name - all these strings will be valid names for the command. command ["ls", "dir"], "show a list of local vars" do output.puts target.eval("local_variables") end ##### `delete` method The `delete` method deletes a command or a group of a commands; it can be useful when inheriting from another command set when you decide to keep only a portion of inherited commands. class MyCommands < Pry::Commands delete "show_method", "show_imethod" end ##### `import_from` method The `import_from` method enables you to specifically select which commands will be copied across from another command set, useful when you only want a small number of commands and so inheriting and then deleting would be inefficient. The first parameter to `import_from` is the class to import from and the other paramters are the names of the commands to import: class MyCommands < Pry::CommandBase import_from Pry::Commands, "ls", "status", "!" end ##### `run` method The `run` command invokes one command from within another. The first parameter is the name of the command to invoke and the remainder of the parameters will be passed on to the command being invoked: class MyCommands < Pry::Commands command "ls_with_hello" do output.puts "hello!" run "ls" end end #### Utility methods for commands All commands can access the special `output` and `target` methods. The `output` method returns the `output` object for the active pry session. Ensuring that your commands invoke `puts` on this rather than using the top-level `puts` will ensure that all your session output goes to the same place. The `target` method returns the `Binding` object the Pry session is currently active on - useful when your commands need to manipulate or examine the state of the object. E.g, the "ls" command is implemented as follows command "ls" do output.puts target.eval("local_variables + instance_variables").inspect end #### The opts hash These are miscellaneous variables that may be useful to your commands: * `opts[:val]` - The line of input that invoked the command. * `opts[:eval_string]` - The cumulative lines of input for multi-line input. * `opts[:nesting]` - Lowlevel session nesting information. * `opts[:commands]` - Lowlevel data of all Pry commands. (see commands.rb for examples of how some of these options are used) #### The `help` command The `Pry::CommandBase` class automatically defines a `help` command for you. Typing `help` in a Pry session will show a list of commands to the user followed by their descriptions. Passing a parameter to `help` with the command name will just return the description of that specific command. If a description is left out it will automatically be given the description "No description.". If the description is explicitly set to `""` then this command will not be displayed in `help`. ### Hooks Currently Pry supports just two hooks: `before_session` and `after_session`. These hooks are invoked before a Pry session starts and after a session ends respectively. The default hooks used are stored in the `Pry::DEFAULT_HOOKS` and just output the text `"Beginning Pry session for "` and `"Ending Pry session for "`. #### Example: Setting global hooks All subsequent Pry instances will use these hooks as default: Pry.hooks = { :before_session => proc { |out, obj| out.puts "Opened #{obj}" }, :after_session => proc { |out, obj| out.puts "Closed #{obj}" } } 5.pry Inside the session: Opened 5 pry(5)> exit Closed 5 Note that the `before_session` and `after_session` procs receive the current session's output object and session receiver as parameters. #### Example: Setting hooks for a specific session Like all the other customization options, the global default (as explained above) can be overriden for a specific session, either at session start or during runtime. ##### At session start Pry.start(self, :hooks => { :before_session => proc { puts "hello world!" }, :after_session => proc { puts "goodbye world!" } }) ##### At runtime _pry_.hooks = { :before_session => proc { puts "puts "hello world!" } } ### Prompts The Pry prompt is used by `Readline` and other input objects that accept a prompt. Pry can accept two prompt-types for every prompt; the 'main prompt' and the 'wait prompt'. The main prompt is always used for the first line of input; the wait prompt is used in multi-line input to indicate that the current expression is incomplete and more lines of input are required. The default Prompt used by Pry is stored in the `Pry::DEFAULT_PROMPT` constant. A valid Pry prompt is either a single `Proc` object or a two element array of `Proc` objects. When an array is used the first element is the 'main prompt' and the last element is the 'wait prompt'. When a single `Proc` object is used it will be used for both the main prompt and the wait prompt. #### Example: Setting global prompt The prompt `Proc` objects are passed the receiver of the Pry session and the nesting level of that session as parameters (they can simply ignore these if they do not need them). # Using one proc for both main and wait prompts Pry.prompt = proc { |obj, nest_level| "#{obj}:#{nest_level}> " } # Alternatively, provide two procs; one for main and one for wait Pry.prompt = [ proc { "ENTER INPUT> " }, proc { "MORE INPUT REQUIRED!* " }] #### Example: Setting the prompt for a specific session ##### At session start Pry.start(self, :prompt => [proc { "ENTER INPUT> " }, proc { "MORE INPUT REQUIRED!* " }]) ##### At runtime _pry_.prompt = [proc { "ENTER INPUT> " }, proc { "MORE INPUT REQUIRED!* " }] ### Print The Print phase of Pry's READ-EVAL-PRINT-LOOP can be customized. The default action is stored in the `Pry::DEFAULT_PRINT` constant and it simply outputs the value of the current expression preceded by a `=>` (or the first line of the backtrace if the value is an `Exception` object.) The print object should be a `Proc` and the parameters passed to the `Proc` are the output object for the current session and the 'value' returned by the current expression. #### Example: Setting global print object Let's define a print object that displays the full backtrace of any exception and precedes the output of a value by the text `"Output is: "`: Pry.print = proc do |output, value| case value when Exception output.puts value.backtrace else output.puts "Output is: #{value}" end end #### Example: Setting the print object for a specific session ##### At session start Pry.start(self, :print => proc do |output, value| case value when Exception output.puts value.backtrace else output.puts "Output is: #{value.inspect}" end end) ##### At runtime _pry_.print = proc do |output, value| case value when Exception output.puts value.backtrace else output.puts "Output is: #{value.inspect}" end end Contact ------- Problems or questions contact me at [github](http://github.com/banister)