1 files changed, 240 insertions, 16 deletions

diff --git a/docs/hooks.rst b/docs/hooks.rst
index 1e96e963..75febb2b 100644
--- a/docs/hooks.rst
+++ b/docs/hooks.rst
@@ -5,28 +5,51 @@ cmd2 Application Lifecycle and Hooks
 
 The typical way of starting a cmd2 application is as follows::
 
-    from cmd2 import Cmd
-    class App(Cmd):
+    import cmd2
+    class App(cmd2.Cmd):
         # customized attributes and methods here
-    app = App()
-    app.cmdloop()
 
-There are several pre-existing methods and attributes which you can tweak to control the overall behavior of your
-application before, during, and after the main loop.
+    if __name__ == '__main__':
+        app = App()
+        app.cmdloop()
 
-Application Lifecycle Hook Methods
-----------------------------------
-The ``preloop`` and ``postloop`` methods run before and after the main loop, respectively.
+There are several pre-existing methods and attributes which you can tweak to
+control the overall behavior of your application before, during,
+and after the command processing loop.
 
-.. automethod:: cmd2.cmd2.Cmd.preloop
+Application Lifecycle Hooks
+---------------------------
+
+You can register methods to be called at the beginning of the command loop::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_preloop_hook(self.myhookmethod)
+
+        def myhookmethod(self):
+            self.poutput("before the loop begins")
+
+And also after the command loop has finished::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_postloop_hook(self.myhookmethod)
+
+        def myhookmethod(self):
+            self.poutput("before the loop begins")
+
+Preloop and postloop hook methods are not passed any parameters and any return
+value is ignored.
 
-.. automethod:: cmd2.cmd2.Cmd.postloop
 
 Application Lifecycle Attributes
 --------------------------------
 
-There are numerous attributes (member variables of the ``cmd2.Cmd``) which have a significant effect on the application
-behavior upon entering or during the main loop.  A partial list of some of the more important ones is presented here:
+There are numerous attributes (member variables of the ``cmd2.Cmd``) which have
+a significant effect on the application behavior upon entering or during the
+main loop.  A partial list of some of the more important ones is presented here:
 
 - **intro**: *str* - if provided this serves as the intro banner printed once at start of application, after ``preloop`` runs
 - **allow_cli_args**: *bool* - if True (default), then searches for -t or --test at command line to invoke transcript testing mode instead of a normal main loop
@@ -36,8 +59,209 @@ behavior upon entering or during the main loop.  A partial list of some of the m
     command results
 
 
-Command Processing Hooks
-------------------------
+Command Processing Loop
+-----------------------
+
+When you call `.cmdloop()`, the following sequence of events are repeated
+until the application exits:
+
+1. Output the prompt
+2. Accept user input
+3. Parse user input into `Statement` object
+4. Call methods registered with `register_postparsing_hook()`
+5. Call `postparsing_precmd()` - for backwards compatibility deprecated
+6. Redirect output, if user asked for it and it's allowed
+7. Start timer
+8. Call methods registered with `register_precmd_hook()`
+9. Call `precmd()` - for backwards compatibility with ``cmd.Cmd``
+10. Add statement to history
+11. Call `do_command` method
+12. Call methods registered with `register_postcmd_hook()`
+13. Call `postcmd(stop, statement)` - for backwards compatibility with ``cmd.Cmd``
+14. Stop timer and display the elapsed time
+15. Stop redirecting output if it was redirected
+16. Call methods registered with `register_cmdfinalization_hook()`
+17. Call `postparsing_postcmd()` - for backwards compatibility - deprecated
+
+By registering hook methods, steps 4, 8, 12, and 16 allow you to run code
+during, and control the flow of the command processing loop. Be aware that
+plugins also utilize these hooks, so there may be code running that is not
+part of your application. Methods registered for a hook are called in the
+order they were registered. You can register a function more than once, and
+it will be called each time it was registered.
+
+Postparsing, precomamnd, and postcommand hook methods share some common ways to
+influence the command processing loop.
+
+If a hook raises a ``cmd2.EmptyStatement`` exception:
+- no more hooks (except command finalization hooks) of any kind will be called
+- if the command has not yet been executed, it will not be executed
+- no error message will be displayed to the user
+
+If a hook raises any other exception:
+- no more hooks (except command finalization hooks) of any kind will be called
+- if the command has not yet been executed, it will not be executed
+- the exception message will be displayed for the user.
+
+Specific types of hook methods have additional options as described below.
+
+Postparsing Hooks
+^^^^^^^^^^^^^^^^^
+
+Postparsing hooks are called after the user input has been parsed but before
+execution of the comamnd. These hooks can be used to:
+- modify the user input
+- cancel execution of the current command
+- exit the application
+
+When postparsing hooks are called, output has not been redirected, nor has the
+timer for command execution been started.
+
+To define and register a postparsing hook, do the following::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_postparsing_hook(self.myhookmethod)
+
+        def myhookmethod(self, statement):
+            return False, statement
+
+The hook method will be passed one parameter, a ``Statement`` object containing
+the parsed user input. There are many useful attributes in the ``Statement``
+object, including ``.raw`` which contains exactly what the user typed. The hook
+method must return a tuple: the first element indicates whether to fatally fail
+this command prior to execution and exit the application, and the second element
+is a potentially modified ``Statement`` object.
+
+To modify the user input, you create and return a new ``Statement`` object.
+Don't try and directly modify the contents of a ``Statement`` object, there be
+dragons. Instead, use the various attributes in a ``Statement`` object to
+construct a new string, and then parse that string to create a new ``Statement``
+object.
+
+``cmd2.Cmd()`` uses an instance of ``cmd2.StatementParser`` to parse user input.
+This instance has been configured with the proper command terminators, multiline
+commands, and other parsing related settings. This instance is available as the
+``self.statement_parser`` attribute. Here's a simple example which shows the
+proper technique::
+
+    def myhookmethod(self, statement):
+        stop = False
+        if not '|' in statement.raw:
+            newinput = statement.raw + ' | less'
+            statement = self.statement_parser.parse(newinput)
+        return stop, statement
+
+If a postparsing hook returns ``True`` as the first value in the tuple:
+- no more hooks of any kind (except command finalization hooks) will be called
+- the command will not be executed
+- no error message will be displayed to the user
+- the application will exit
+
+
+Precommand Hooks
+^^^^^^^^^^^^^^^^^
+
+A precommand hook is defined in ``cmd.Cmd``. It is not able to request that the
+app terminate, but it is passed the user input and allowed to make changes. If
+your hook needs to be able to exit the application, you should implement it as a postparsing hook.
+
+Once output is redirected and the timer started, all the hooks registered with
+``register_precmd_hook()`` are called. Here's how you do it::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_precmd_hook(self.myhookmethod)
+
+        def myhookmethod(self, statement):
+            return statement
+
+You may choose to create a new ``Statement`` with different properties (see
+above) or leave it alone, but you must return a ``Statement`` object.
+
+After all registered precommand hooks have been called, ``self.precmd(statement)``
+will be called. This retains full backwards compatibility with ``cmd.Cmd``.
+
+Postcommand Hooks
+^^^^^^^^^^^^^^^^^^
+
+Once the command method has returned (i.e. the ``do_command(self, statement) method``
+has been called and returns, all postcommand hooks are called. If output was redirected
+by the user, it is still redirected, and the command timer is still running.
+
+Here's how to define a register a postcommand hook::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_postcmd_hook(self.myhookmethod)
+
+        def myhookmethod(self, statement):
+            stop = False
+            return stop
+
+Your hook will be passed the statement object, which describes the command which
+was executed. If your postcommand hook method gets called, you are guaranteed that
+the command method was called, and that it didn't raise an exception.
+
+If any postcommand hook raises an exception, no further postcommand hook methods
+will be called.
+
+After all registered precommand hooks have been called,
+``self.postcmd(statement)`` will be called. This retains full backwards
+compatibility with ``cmd.Cmd``.
+
+If any postcommand hook (registered or ``self.postcmd()``) returns ``True``,
+subsequent postcommand hooks will still be called, as will the command
+finalization hooks, but once those hooks have all been called, the application
+will terminate.
+
+Command Finalization Hooks
+^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Command finalization hooks are called even if one of the other types of hooks or
+the command method raise an exception. Here's how to create and register a
+command finalization hook::
+
+    class App(cmd2.Cmd):
+        def __init__(self, *args, *kwargs):
+            super().__init__(*args, **kwargs)
+            self.register_cmdfinalization_hook(self.myhookmethod)
+
+        def myhookmethod(self, stop, statement):
+            return stop
+
+If any prior postparsing or precommand hook has requested the application to
+terminate, the value of the ``stop`` parameter passed to the first command
+finalization hook will be ``True``. Any command finalization hook can change the
+value of the ``stop`` parameter before returning it, and the modified value will
+be passed to the next command finalization hook. The value returned by the final
+command finalization hook will determin whether the application terminates or
+not.
+
+This approach to command finalization hooks can be powerful, but it can also
+cause problems. If your hook blindly returns ``False``, a prior hook's requst to
+exit the application will not be honored. It's best to return the value you were
+passed unless you have a compelling reason to do otherwise.
+
+If any command finalization hook raises an exception, no more command
+finalization hooks will be called. If the last hook to return a value returned
+``True``, then the exception will be rendered, and the application will
+terminate.
+
+Deprecated Application Lifecycle Hook Methods
+---------------------------------------------
+
+The ``preloop`` and ``postloop`` methods run before and after the main loop, respectively.
+
+.. automethod:: cmd2.cmd2.Cmd.preloop
+
+.. automethod:: cmd2.cmd2.Cmd.postloop
+
+Deprecated Command Processing Hooks
+-----------------------------------
 
 Inside the main loop, every time the user hits <Enter> the line is processed by the ``onecmd_plus_hooks`` method.
 
@@ -56,4 +280,4 @@ the various hook methods, presented in chronological order starting with the one
 
 .. automethod:: cmd2.cmd2.Cmd.postcmd
 
-.. automethod:: cmd2.cmd2.Cmd.postparsing_postcmd
+.. automethod:: cmd2.cmd2.Cmd.postparsing_postcmd
\ No newline at end of file