Features requiring only parameter changes¶
Several aspects of a cmd2
application’s behavior
can be controlled simply by setting attributes of App
.
A parameter can also be changed at runtime by the user if
its name is included in the dictionary app.settable
.
(To define your own user-settable parameters, see Other user-settable parameters)
Shortcuts¶
Command shortcuts for long command names and common commands can make life more convenient for your users.
Shortcuts are used without a space separating them from their arguments, like !ls
. By default, the
following shortcuts are defined:
?
- help
!
- shell: run as OS-level command
@
- load script file
@@
- load script file; filename is relative to current script location
To define more shortcuts, update the dict App.shortcuts
with the
{‘shortcut’: ‘command_name’} (omit do_
):
class App(Cmd2):
def __init__(self):
# Make sure you update the shortcuts attribute before calling the super class __init__
self.shortcuts.update({'*': 'sneeze', '~': 'squirm'})
# Make sure to call this super class __init__ after updating shortcuts
cmd2.Cmd.__init__(self)
Warning
Shortcuts need to be created by updating the shortcuts
dictionary attribute prior to calling the
cmd2.Cmd
super class __init__()
method. Moreover, that super class init method needs to be called after
updating the shortcuts
attribute This warning applies in general to many other attributes which are not
settable at runtime such as multiline_commands
, etc.
Aliases¶
In addition to shortcuts, cmd2
provides a full alias feature via the alias
command. Aliases work in a similar
fashion to aliases in the Bash shell.
The syntax to create an alias is: alias create name command [args]
.
Ex:alias create ls !ls -lF
For more details run: help alias create
Use alias list
to see all or some of your aliases. The output of this command displays your aliases using the same command that
was used to create them. Therefore you can place this output in a cmd2
startup script to recreate your aliases each time
you start the application
Ex:alias list
For more details run: help alias list
Use alias delete
to remove aliases
For more details run: help alias delete
Macros¶
cmd2
provides a feature that is similar to aliases called macros. The major difference between macros and aliases
is that macros are intended to take arguments when called. These can be useful if you need to run a complex command
frequently with different arguments that appear in various parts of the command.
Arguments are expressed when creating a macro using {#} notation where {1} means the first argument.
The following creates a macro called my_macro that expects two arguments:
macro create my_macro make_dinner -meat {1} -veggie {2}
When the macro is called, the provided arguments are resolved and the assembled command is run. For example:
my_macro beef broccoli —> make_dinner -meat beef -veggie broccoli
For more details run: help macro create
The macro command has list
and delete
subcommands that function identically to the alias subcommands of the
same name. Like aliases, macros can be created via a cmd2
startup script to preserve them across application
sessions.
For more details on listing macros run: help macro list
For more details on deleting macros run: help macro delete
Default to shell¶
Every cmd2
application can execute operating-system
level (shell) commands with shell
or a !
shortcut:
(Cmd) shell which python
/usr/bin/python
(Cmd) !which python
/usr/bin/python
However, if the parameter default_to_shell
is
True
, then every command will be attempted on
the operating system. Only if that attempt fails
(i.e., produces a nonzero return value) will the
application’s own default
method be called.
(Cmd) which python
/usr/bin/python
(Cmd) my dog has fleas
sh: my: not found
*** Unknown syntax: my dog has fleas
Quit on SIGINT¶
On many shells, SIGINT (most often triggered by the user
pressing Ctrl+C) only cancels the current line, not the
entire command loop. By default, a cmd2
application will quit
on receiving this signal. However, if quit_on_sigint
is
set to False
, then the current line will simply be cancelled.
(Cmd) typing a comma^C
(Cmd)
Timing¶
Setting App.timing
to True
outputs timing data after
every application command is executed. The user can set
this parameter
during application execution.
(See Other user-settable parameters)
Echo¶
If True
, each command the user issues will be repeated
to the screen before it is executed. This is particularly
useful when running scripts.
Debug¶
Setting App.debug
to True
will produce detailed error stacks
whenever the application generates an error. The user can set
this parameter
during application execution.
(See Other user-settable parameters)
Other user-settable parameters¶
A list of all user-settable parameters, with brief comments, is viewable from within a running application with:
(Cmd) set --long
colors: Terminal # Allow colorized output
continuation_prompt: > # On 2nd+ line of input
debug: False # Show full error stack on error
echo: False # Echo command issued into output
editor: vim # Program used by ``edit``
feedback_to_output: False # include nonessentials in `|`, `>` results
locals_in_py: False # Allow access to your application in py via self
prompt: (Cmd) # The prompt issued to solicit input
quiet: False # Don't print nonessential feedback
timing: False # Report execution times
Any of these user-settable parameters can be set while running your app with the set
command like so:
set colors Never