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author | catherine@dellzilla |
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date | Wed, 17 Feb 2010 12:08:42 -0500 |
parents | 8aa71e8f1064 |
children | 52ab96d4f179 |
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====================================== Features requiring application changes ====================================== Multiline commands ================== Command input may span multiple lines for the commands whose names are listed in the parameter ``app.multilineCommands``. These commands will be executed only after the user has entered a *terminator*. By default, the command terminators is ``;``; replacing or appending to the list ``app.terminators`` allows different terminators. A blank line is *always* considered a command terminator (cannot be overridden). Parsed statements ================= ``cmd2`` passes ``arg`` to a ``do_`` method (or ``default`) as a ParsedString, a subclass of string that includes an attribute ``parsed``. ``parsed`` is a ``pyparsing.ParseResults``_ object produced by applying a pyparsing_ grammar applied to ``arg``. It may include: command Name of the command called raw Full input exactly as typed. terminator Character used to end a multiline command suffix Remnant of input after terminator :: def do_parsereport(self, arg): self.stdout.write(arg.parsed.dump() + '\n') :: (Cmd) parsereport A B /* C */ D; E ['parsereport', 'A B D', ';', 'E'] - args: A B D - command: parsereport - raw: parsereport A B /* C */ D; E - statement: ['parsereport', 'A B D', ';'] - args: A B D - command: parsereport - terminator: ; - suffix: E - terminator: ; If ``parsed`` does not contain an attribute, querying for it will return ``None``. (This is a characteristic of ``pyparsing.ParseResults``_.) ParsedString was developed to support sqlpython_ and reflects its needs. The parsing grammar and process are painfully complex and should not be considered stable; future ``cmd2`` releases may change it somewhat (hopefully reducing complexity). (Getting ``arg`` as a ``ParsedString`` is technically "free", in that it requires no application changes from the cmd_ standard, but there will be no result unless you change your application to *use* ``arg.parsed``.) Environment parameters ====================== Your application can define user-settable parameters which your code can reference. Create them as class attributes with their default values, and add them (with optional documentation) to ``settable``. :: from cmd2 import Cmd class App(Cmd): degrees_c = 22 sunny = False settable = Cmd.settable + '''degrees_c temperature in Celsius sunny''' def do_sunbathe(self, arg): if self.degrees_c < 20: result = "It's {temp} C - are you a penguin?".format(temp=self.degrees_c) elif not self.sunny: result = 'Too dim.' else: result = 'UV is bad for your skin.' self.stdout.write(result + '\n') app = App() app.cmdloop() :: (Cmd) set --long degrees_c: 22 # temperature in Celsius sunny: False # (Cmd) sunbathe Too dim. (Cmd) set sunny yes sunny - was: False now: True (Cmd) sunbathe UV is bad for your skin. (Cmd) set degrees_c 13 degrees_c - was: 22 now: 13 (Cmd) sunbathe It's 13 C - are you a penguin? Commands with flags =================== All ``do_`` methods are responsible for interpreting the arguments passed to them. However, ``cmd2`` lets a ``do_`` methods accept Unix-style *flags*. It uses optparse_ to parse the flags, and they work the same way as for that module. Flags are defined with the ``options`` decorator, which is passed a list of optparse_-style options, each created with ``make_option``. The method should accept a second argument, ``opts``, in addition to ``args``; the flags will be stripped from ``args``. :: @options([make_option('-p', '--piglatin', action="store_true", help="atinLay"), make_option('-s', '--shout', action="store_true", help="N00B EMULATION MODE"), make_option('-r', '--repeat', type="int", help="output [n] times") ]) def do_speak(self, arg, opts=None): """Repeats what you tell me to.""" arg = ''.join(arg) if opts.piglatin: arg = '%s%say' % (arg[1:].rstrip(), arg[0]) if opts.shout: arg = arg.upper() repetitions = opts.repeat or 1 for i in range(min(repetitions, self.maxrepeats)): self.stdout.write(arg) self.stdout.write('\n') :: (Cmd) say goodnight, gracie goodnight, gracie (Cmd) say -sp goodnight, gracie OODNIGHT, GRACIEGAY (Cmd) say -r 2 --shout goodnight, gracie GOODNIGHT, GRACIE GOODNIGHT, GRACIE .. _optparse: .. _outputters: poutput, pfeedback, perror ========================== Standard ``cmd`` applications produce their output with ``self.stdout.write('output')`` (or with ``print``, but ``print`` decreases output flexibility). ``cmd2`` applications can use ``self.poutput('output')``, ``self.pfeedback('message')``, and ``self.perror('errmsg')`` instead. These methods have these advantages: - More concise - ``.pfeedback()`` destination is controlled by :ref:`quiet` parameter. .. _quiet: color ===== .. automethod:: cmd2.Cmd.do_quit Quiet ===== Controls whether ``self.pfeedback('message')`` output is suppressed; useful for non-essential feedback that the user may not always want to read. ``quiet`` is only relevant if ``app.pfeedback`` is sometimes used. ``select`` ========== ``app.select`` is called from within a method (not by the user directly; it is ``app.select``, not ``app.do_select``). .. automethod:: cmd2.Cmd.select :: def do_eat(self, arg): sauce = self.select('sweet salty', 'Sauce? ') result = '{food} with {sauce} sauce, yum!' result = result.format(food=arg, sauce=sauce) self.stdout.write(result + '\n') :: (Cmd) eat wheaties 1. sweet 2. salty Sauce? 2 wheaties with salty sauce, yum!