view cmd2.py @ 415:d858a03fbdbb

replacing self.perror();return with raise for catchability
author Catherine Devlin <catherine.devlin@gmail.com>
date Wed, 17 Nov 2010 21:59:01 -0500
parents 731f2c93c1cd
children a9f936346399
line wrap: on
line source

"""Variant on standard library's cmd with extra features.

To use, simply import cmd2.Cmd instead of cmd.Cmd; use precisely as though you
were using the standard library's cmd, while enjoying the extra features.

Searchable command history (commands: "hi", "li", "run")
Load commands from file, save to file, edit commands in file
Multi-line commands
Case-insensitive commands
Special-character shortcut commands (beyond cmd's "@" and "!")
Settable environment parameters
Optional _onchange_{paramname} called when environment parameter changes
Parsing commands with `optparse` options (flags)
Redirection to file with >, >>; input from file with <
Easy transcript-based testing of applications (see example/example.py)
Bash-style ``select`` available

Note that redirection with > and | will only work if `self.stdout.write()`
is used in place of `print`.  The standard library's `cmd` module is 
written to use `self.stdout.write()`, 

- Catherine Devlin, Jan 03 2008 - catherinedevlin.blogspot.com

mercurial repository at http://www.assembla.com/wiki/show/python-cmd2
"""
import cmd
import re
import os
import sys
import optparse
import subprocess
import tempfile
import doctest
import unittest
import datetime
import urllib
import glob
import traceback
import platform
import copy
from code import InteractiveConsole, InteractiveInterpreter
from optparse import make_option

if sys.version_info[0] > 2:
    import pyparsing_py3 as pyparsing
    raw_input = input
else:
    import pyparsing

__version__ = '0.6.3'

class OptionParser(optparse.OptionParser):
    def exit(self, status=0, msg=None):
        self.values._exit = True
        if msg:
            print (msg)
            
    def print_help(self, *args, **kwargs):
        try:
            print (self._func.__doc__)
        except AttributeError:
            pass
        optparse.OptionParser.print_help(self, *args, **kwargs)

    def error(self, msg):
        """error(msg : string)

        Print a usage message incorporating 'msg' to stderr and exit.
        If you override this in a subclass, it should not return -- it
        should either exit or raise an exception.
        """
        raise
        
def remaining_args(oldArgs, newArgList):
    '''
    Preserves the spacing originally in the argument after
    the removal of options.
    
    >>> remaining_args('-f bar   bar   cow', ['bar', 'cow'])
    'bar   cow'
    '''
    pattern = '\s+'.join(re.escape(a) for a in newArgList) + '\s*$'
    matchObj = re.search(pattern, oldArgs)
    return oldArgs[matchObj.start():]
   
def _attr_get_(obj, attr):
    '''Returns an attribute's value, or None (no error) if undefined.
       Analagous to .get() for dictionaries.  Useful when checking for
       value of options that may not have been defined on a given
       method.'''
    try:
        return getattr(obj, attr)
    except AttributeError:
        return None
    
optparse.Values.get = _attr_get_
    
options_defined = [] # used to distinguish --options from SQL-style --comments

def options(option_list, arg_desc="arg"):
    '''Used as a decorator and passed a list of optparse-style options,
       alters a cmd2 method to populate its ``opts`` argument from its
       raw text argument.

       Example: transform
       def do_something(self, arg):

       into
       @options([make_option('-q', '--quick', action="store_true",
                 help="Makes things fast")],
                 "source dest")
       def do_something(self, arg, opts):
           if opts.quick:
               self.fast_button = True
       '''
    if not isinstance(option_list, list):
        option_list = [option_list]
    for opt in option_list:
        options_defined.append(pyparsing.Literal(opt.get_opt_string()))
    def option_setup(func):
        optionParser = OptionParser()
        for opt in option_list:
            optionParser.add_option(opt)
        optionParser.set_usage("%s [options] %s" % (func.__name__[3:], arg_desc))
        optionParser._func = func
        def new_func(instance, arg):
            try:
                opts, newArgList = optionParser.parse_args(arg.split())
                # Must find the remaining args in the original argument list, but 
                # mustn't include the command itself
                #if hasattr(arg, 'parsed') and newArgList[0] == arg.parsed.command:
                #    newArgList = newArgList[1:]
                newArgs = remaining_args(arg, newArgList)
                if isinstance(arg, ParsedString):
                    arg = arg.with_args_replaced(newArgs)
                else:
                    arg = newArgs
            except (optparse.OptionValueError, optparse.BadOptionError,
                    optparse.OptionError, optparse.AmbiguousOptionError,
                    optparse.OptionConflictError), e:
                print (e)
                optionParser.print_help()
                return
            if hasattr(opts, '_exit'):
                return None
            result = func(instance, arg, opts)                            
            return result        
        new_func.__doc__ = '%s\n%s' % (func.__doc__, optionParser.format_help())
        return new_func
    return option_setup

class PasteBufferError(EnvironmentError):
    if sys.platform[:3] == 'win':
        errmsg = """Redirecting to or from paste buffer requires pywin32
to be installed on operating system.
Download from http://sourceforge.net/projects/pywin32/"""
    else:
        errmsg = """Redirecting to or from paste buffer requires xclip 
to be installed on operating system.
On Debian/Ubuntu, 'sudo apt-get install xclip' will install it."""        
    def __init__(self):
        Exception.__init__(self, self.errmsg)

pastebufferr = """Redirecting to or from paste buffer requires %s
to be installed on operating system.
%s"""

if subprocess.mswindows:
    try:
        import win32clipboard
        def get_paste_buffer():
            win32clipboard.OpenClipboard(0)
            try:
                result = win32clipboard.GetClipboardData()
            except TypeError:
                result = ''  #non-text
            win32clipboard.CloseClipboard()
            return result            
        def write_to_paste_buffer(txt):
            win32clipboard.OpenClipboard(0)
            win32clipboard.EmptyClipboard()
            win32clipboard.SetClipboardText(txt)
            win32clipboard.CloseClipboard()        
    except ImportError:
        def get_paste_buffer(*args):
            raise OSError, pastebufferr % ('pywin32', 'Download from http://sourceforge.net/projects/pywin32/')
        write_to_paste_buffer = get_paste_buffer
else:
    can_clip = False
    try:
        subprocess.check_call('xclip -o -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE, stderr=subprocess.PIPE)
        can_clip = True
    except AttributeError:  # check_call not defined, Python < 2.5
        teststring = 'Testing for presence of xclip.'
        xclipproc = subprocess.Popen('xclip -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
        xclipproc.stdin.write(teststring)
        xclipproc.stdin.close()
        xclipproc = subprocess.Popen('xclip -o -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)        
        if xclipproc.stdout.read() == teststring:
            can_clip = True
    except (subprocess.CalledProcessError, OSError, IOError):
        pass
    if can_clip:    
        def get_paste_buffer():
            xclipproc = subprocess.Popen('xclip -o -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
            return xclipproc.stdout.read()
        def write_to_paste_buffer(txt):
            xclipproc = subprocess.Popen('xclip -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
            xclipproc.stdin.write(txt.encode())
            xclipproc.stdin.close()
            # but we want it in both the "primary" and "mouse" clipboards
            xclipproc = subprocess.Popen('xclip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
            xclipproc.stdin.write(txt.encode())
            xclipproc.stdin.close()
    else:
        def get_paste_buffer(*args):
            raise OSError, pastebufferr % ('xclip', 'On Debian/Ubuntu, install with "sudo apt-get install xclip"')
        write_to_paste_buffer = get_paste_buffer
          
pyparsing.ParserElement.setDefaultWhitespaceChars(' \t')

class ParsedString(str):
    def full_parsed_statement(self):
        new = ParsedString('%s %s' % (self.parsed.command, self.parsed.args))
        new.parsed = self.parsed
        new.parser = self.parser
        return new       
    def with_args_replaced(self, newargs):
        new = ParsedString(newargs)
        new.parsed = self.parsed
        new.parser = self.parser
        new.parsed['args'] = newargs
        new.parsed.statement['args'] = newargs
        return new

class SkipToLast(pyparsing.SkipTo):
    def parseImpl( self, instring, loc, doActions=True ):
        resultStore = []
        startLoc = loc
        instrlen = len(instring)
        expr = self.expr
        failParse = False
        while loc <= instrlen:
            try:
                if self.failOn:
                    failParse = True
                    self.failOn.tryParse(instring, loc)
                    failParse = False
                loc = expr._skipIgnorables( instring, loc )
                expr._parse( instring, loc, doActions=False, callPreParse=False )
                skipText = instring[startLoc:loc]
                if self.includeMatch:
                    loc,mat = expr._parse(instring,loc,doActions,callPreParse=False)
                    if mat:
                        skipRes = ParseResults( skipText )
                        skipRes += mat
                        resultStore.append((loc, [ skipRes ]))
                    else:
                        resultStore,append((loc, [ skipText ]))
                else:
                    resultStore.append((loc, [ skipText ]))
                loc += 1
            except (pyparsing.ParseException,IndexError):
                if failParse:
                    raise
                else:
                    loc += 1
        if resultStore:
            return resultStore[-1]
        else:
            exc = self.myException
            exc.loc = loc
            exc.pstr = instring
            raise exc    

class StubbornDict(dict):
    '''Dictionary that tolerates many input formats.
    Create it with stubbornDict(arg) factory function.
    
    >>> d = StubbornDict(large='gross', small='klein')
    >>> sorted(d.items())
    [('large', 'gross'), ('small', 'klein')]
    >>> d.append(['plain', '  plaid'])
    >>> sorted(d.items())
    [('large', 'gross'), ('plaid', ''), ('plain', ''), ('small', 'klein')]
    >>> d += '   girl Frauelein, Maedchen\\n\\n shoe schuh'
    >>> sorted(d.items())
    [('girl', 'Frauelein, Maedchen'), ('large', 'gross'), ('plaid', ''), ('plain', ''), ('shoe', 'schuh'), ('small', 'klein')]
    '''    
    def update(self, arg):
        dict.update(self, StubbornDict.to_dict(arg))
    append = update
    def __iadd__(self, arg):
        self.update(arg)
        return self
    def __add__(self, arg):
        selfcopy = copy.copy(self)
        selfcopy.update(stubbornDict(arg))
        return selfcopy
    def __radd__(self, arg):
        selfcopy = copy.copy(self)
        selfcopy.update(stubbornDict(arg))
        return selfcopy    
        
    @classmethod
    def to_dict(cls, arg):
        'Generates dictionary from string or list of strings'
        if hasattr(arg, 'splitlines'):
            arg = arg.splitlines()
        if hasattr(arg, '__reversed__'):
            result = {}    
            for a in arg:
                a = a.strip()
                if a:
                    key_val = a.split(None, 1)
                    key = key_val[0]
                    if len(key_val) > 1:
                        val = key_val[1]
                    else:
                        val = ''
                    result[key] = val
        else:
            result = arg
        return result

def stubbornDict(*arg, **kwarg):
    '''
    >>> sorted(stubbornDict('cow a bovine\\nhorse an equine').items())
    [('cow', 'a bovine'), ('horse', 'an equine')]
    >>> sorted(stubbornDict(['badger', 'porcupine a poky creature']).items())
    [('badger', ''), ('porcupine', 'a poky creature')]
    >>> sorted(stubbornDict(turtle='has shell', frog='jumpy').items())
    [('frog', 'jumpy'), ('turtle', 'has shell')]
    '''
    result = {}
    for a in arg:
        result.update(StubbornDict.to_dict(a))
    result.update(kwarg)                      
    return StubbornDict(result)
        
def replace_with_file_contents(fname):
    if fname:
        try:
            result = open(os.path.expanduser(fname[0])).read()
        except IOError:
            result = '< %s' % fname[0]  # wasn't a file after all
    else:
        result = get_paste_buffer()
    return result      

class EmbeddedConsoleExit(SystemExit):
    pass

class EmptyStatement(Exception):
    pass

def ljust(x, width, fillchar=' '):
    'analogous to str.ljust, but works for lists'
    if hasattr(x, 'ljust'):
        return x.ljust(width, fillchar)
    else:
        if len(x) < width:
            x = (x + [fillchar] * width)[:width]
        return x
    
class Cmd(cmd.Cmd):
    echo = False
    case_insensitive = True     # Commands recognized regardless of case
    continuation_prompt = '> '  
    timing = False              # Prints elapsed time for each command
    # make sure your terminators are not in legalChars!
    legalChars = '!#$%.:?@_' + pyparsing.alphanums + pyparsing.alphas8bit  
    shortcuts = {'?': 'help', '!': 'shell', '@': 'load', '@@': '_relative_load'}
    excludeFromHistory = '''run r list l history hi ed edit li eof'''.split()
    default_to_shell = False
    noSpecialParse = 'set ed edit exit'.split()
    defaultExtension = 'txt'            # For ``save``, ``load``, etc.
    default_file_name = 'command.txt'   # For ``save``, ``load``, etc.
    abbrev = True                       # Abbreviated commands recognized
    current_script_dir = None
    reserved_words = []
    feedback_to_output = False          # Do include nonessentials in >, | output
    quiet = False                       # Do not suppress nonessential output
    debug = False
    locals_in_py = True
    kept_state = None
    settable = stubbornDict('''
        prompt
        colors                Colorized output (*nix only)
        continuation_prompt   On 2nd+ line of input
        debug                 Show full error stack on error
        default_file_name     for ``save``, ``load``, etc.
        editor                Program used by ``edit`` 	
        case_insensitive      upper- and lower-case both OK
        feedback_to_output    include nonessentials in `|`, `>` results 
        quiet                 Don't print nonessential feedback
        echo                  Echo command issued into output
        timing                Report execution times
        abbrev                Accept abbreviated commands
        ''')
    
    def poutput(self, msg):
        '''Convenient shortcut for self.stdout.write(); adds newline if necessary.'''
        if msg:
            self.stdout.write(msg)
            if msg[-1] != '\n':
                self.stdout.write('\n')
    def perror(self, errmsg, statement=None):
        if self.debug:
            traceback.print_exc()
        print (str(errmsg))
    def pfeedback(self, msg):
        """For printing nonessential feedback.  Can be silenced with `quiet`.
           Inclusion in redirected output is controlled by `feedback_to_output`."""
        if not self.quiet:
            if self.feedback_to_output:
                self.poutput(msg)
            else:
                print (msg)
    _STOP_AND_EXIT = True  # distinguish end of script file from actual exit
    _STOP_SCRIPT_NO_EXIT = -999
    editor = os.environ.get('EDITOR')
    if not editor:
        if sys.platform[:3] == 'win':
            editor = 'notepad'
        else:
            for editor in ['gedit', 'kate', 'vim', 'emacs', 'nano', 'pico']:
                if subprocess.Popen(['which', editor], stdout=subprocess.PIPE).communicate()[0]:
                    break

    colorcodes =    {'bold':{True:'\x1b[1m',False:'\x1b[22m'},
                  'cyan':{True:'\x1b[36m',False:'\x1b[39m'},
                  'blue':{True:'\x1b[34m',False:'\x1b[39m'},
                  'red':{True:'\x1b[31m',False:'\x1b[39m'},
                  'magenta':{True:'\x1b[35m',False:'\x1b[39m'},
                  'green':{True:'\x1b[32m',False:'\x1b[39m'},
                  'underline':{True:'\x1b[4m',False:'\x1b[24m'}}
    colors = (platform.system() != 'Windows')
    def colorize(self, val, color):
        '''Given a string (``val``), returns that string wrapped in UNIX-style 
           special characters that turn on (and then off) text color and style.
           If the ``colors`` environment paramter is ``False``, or the application
           is running on Windows, will return ``val`` unchanged.
           ``color`` should be one of the supported strings (or styles):
           red/blue/green/cyan/magenta, bold, underline'''
        if self.colors and (self.stdout == self.initial_stdout):
            return self.colorcodes[color][True] + val + self.colorcodes[color][False]
        return val

    def do_cmdenvironment(self, args):
        '''Summary report of interactive parameters.'''
        self.stdout.write("""
        Commands are %(casesensitive)scase-sensitive.
        Commands may be terminated with: %(terminators)s
        Settable parameters: %(settable)s\n""" % \
        { 'casesensitive': (self.case_insensitive and 'not ') or '',
          'terminators': str(self.terminators),
          'settable': ' '.join(self.settable)
        })
        
    def do_help(self, arg):
        if arg:
            funcname = self.func_named(arg)
            if funcname:
                fn = getattr(self, funcname)
                try:
                    fn.optionParser.print_help(file=self.stdout)
                except AttributeError:
                    cmd.Cmd.do_help(self, funcname[3:])
        else:
            cmd.Cmd.do_help(self, arg)
        
    def __init__(self, *args, **kwargs):        
        cmd.Cmd.__init__(self, *args, **kwargs)
        self.initial_stdout = sys.stdout
        self.history = History()
        self.pystate = {}
        self.shortcuts = sorted(self.shortcuts.items(), reverse=True)
        self.keywords = self.reserved_words + [fname[3:] for fname in dir(self) 
                                               if fname.startswith('do_')]            
        self._init_parser()
            
    def do_shortcuts(self, args):
        """Lists single-key shortcuts available."""
        result = "\n".join('%s: %s' % (sc[0], sc[1]) for sc in sorted(self.shortcuts))
        self.stdout.write("Single-key shortcuts for other commands:\n%s\n" % (result))

    prefixParser = pyparsing.Empty()
    commentGrammars = pyparsing.Or([pyparsing.pythonStyleComment, pyparsing.cStyleComment])
    commentGrammars.addParseAction(lambda x: '')
    commentInProgress  = pyparsing.Literal('/*') + pyparsing.SkipTo(
        pyparsing.stringEnd ^ '*/')
    terminators = [';']
    blankLinesAllowed = False
    multilineCommands = []
    
    def _init_parser(self):
        r'''
        >>> c = Cmd()
        >>> c.multilineCommands = ['multiline']
        >>> c.case_insensitive = True
        >>> c._init_parser()
        >>> print (c.parser.parseString('').dump())
        []
        >>> print (c.parser.parseString('').dump())
        []        
        >>> print (c.parser.parseString('/* empty command */').dump())
        []        
        >>> print (c.parser.parseString('plainword').dump())
        ['plainword', '']
        - command: plainword
        - statement: ['plainword', '']
          - command: plainword        
        >>> print (c.parser.parseString('termbare;').dump())
        ['termbare', '', ';', '']
        - command: termbare
        - statement: ['termbare', '', ';']
          - command: termbare
          - terminator: ;
        - terminator: ;        
        >>> print (c.parser.parseString('termbare; suffx').dump())
        ['termbare', '', ';', 'suffx']
        - command: termbare
        - statement: ['termbare', '', ';']
          - command: termbare
          - terminator: ;
        - suffix: suffx
        - terminator: ;        
        >>> print (c.parser.parseString('barecommand').dump())
        ['barecommand', '']
        - command: barecommand
        - statement: ['barecommand', '']
          - command: barecommand
        >>> print (c.parser.parseString('COMmand with args').dump())
        ['command', 'with args']
        - args: with args
        - command: command
        - statement: ['command', 'with args']
          - args: with args
          - command: command
        >>> print (c.parser.parseString('command with args and terminator; and suffix').dump())
        ['command', 'with args and terminator', ';', 'and suffix']
        - args: with args and terminator
        - command: command
        - statement: ['command', 'with args and terminator', ';']
          - args: with args and terminator
          - command: command
          - terminator: ;
        - suffix: and suffix
        - terminator: ;
        >>> print (c.parser.parseString('simple | piped').dump())
        ['simple', '', '|', ' piped']
        - command: simple
        - pipeTo:  piped
        - statement: ['simple', '']
          - command: simple
        >>> print (c.parser.parseString('double-pipe || is not a pipe').dump())
        ['double', '-pipe || is not a pipe']
        - args: -pipe || is not a pipe
        - command: double
        - statement: ['double', '-pipe || is not a pipe']
          - args: -pipe || is not a pipe
          - command: double
        >>> print (c.parser.parseString('command with args, terminator;sufx | piped').dump())
        ['command', 'with args, terminator', ';', 'sufx', '|', ' piped']
        - args: with args, terminator
        - command: command
        - pipeTo:  piped
        - statement: ['command', 'with args, terminator', ';']
          - args: with args, terminator
          - command: command
          - terminator: ;
        - suffix: sufx
        - terminator: ;
        >>> print (c.parser.parseString('output into > afile.txt').dump())
        ['output', 'into', '>', 'afile.txt']
        - args: into
        - command: output
        - output: >
        - outputTo: afile.txt
        - statement: ['output', 'into']
          - args: into
          - command: output   
        >>> print (c.parser.parseString('output into;sufx | pipethrume plz > afile.txt').dump())
        ['output', 'into', ';', 'sufx', '|', ' pipethrume plz', '>', 'afile.txt']
        - args: into
        - command: output
        - output: >
        - outputTo: afile.txt
        - pipeTo:  pipethrume plz
        - statement: ['output', 'into', ';']
          - args: into
          - command: output
          - terminator: ;
        - suffix: sufx
        - terminator: ;
        >>> print (c.parser.parseString('output to paste buffer >> ').dump())
        ['output', 'to paste buffer', '>>', '']
        - args: to paste buffer
        - command: output
        - output: >>
        - statement: ['output', 'to paste buffer']
          - args: to paste buffer
          - command: output
        >>> print (c.parser.parseString('ignore the /* commented | > */ stuff;').dump())
        ['ignore', 'the /* commented | > */ stuff', ';', '']
        - args: the /* commented | > */ stuff
        - command: ignore
        - statement: ['ignore', 'the /* commented | > */ stuff', ';']
          - args: the /* commented | > */ stuff
          - command: ignore
          - terminator: ;
        - terminator: ;
        >>> print (c.parser.parseString('has > inside;').dump())
        ['has', '> inside', ';', '']
        - args: > inside
        - command: has
        - statement: ['has', '> inside', ';']
          - args: > inside
          - command: has
          - terminator: ;
        - terminator: ;        
        >>> print (c.parser.parseString('multiline has > inside an unfinished command').dump())
        ['multiline', ' has > inside an unfinished command']
        - multilineCommand: multiline        
        >>> print (c.parser.parseString('multiline has > inside;').dump())
        ['multiline', 'has > inside', ';', '']
        - args: has > inside
        - multilineCommand: multiline
        - statement: ['multiline', 'has > inside', ';']
          - args: has > inside
          - multilineCommand: multiline
          - terminator: ;
        - terminator: ;        
        >>> print (c.parser.parseString('multiline command /* with comment in progress;').dump())
        ['multiline', ' command']
        - multilineCommand: multiline
        >>> print (c.parser.parseString('multiline command /* with comment complete */ is done;').dump())
        ['multiline', 'command /* with comment complete */ is done', ';', '']
        - args: command /* with comment complete */ is done
        - multilineCommand: multiline
        - statement: ['multiline', 'command /* with comment complete */ is done', ';']
          - args: command /* with comment complete */ is done
          - multilineCommand: multiline
          - terminator: ;
        - terminator: ;
        >>> print (c.parser.parseString('multiline command ends\n\n').dump())
        ['multiline', 'command ends', '\n', '\n']
        - args: command ends
        - multilineCommand: multiline
        - statement: ['multiline', 'command ends', '\n', '\n']
          - args: command ends
          - multilineCommand: multiline
          - terminator: ['\n', '\n']
        - terminator: ['\n', '\n']
        '''
        outputParser = (pyparsing.Literal('>>') | (pyparsing.WordStart() + '>') | pyparsing.Regex('[^=]>'))('output')
        
        terminatorParser = pyparsing.Or([(hasattr(t, 'parseString') and t) or pyparsing.Literal(t) for t in self.terminators])('terminator')
        stringEnd = pyparsing.stringEnd ^ '\nEOF'
        self.multilineCommand = pyparsing.Or([pyparsing.Keyword(c, caseless=self.case_insensitive) for c in self.multilineCommands])('multilineCommand')
        oneLineCommand = (~self.multilineCommand + pyparsing.Word(self.legalChars))('command')
        pipe = pyparsing.Keyword('|', identChars='|')
        self.commentGrammars.ignore(pyparsing.quotedString).setParseAction(lambda x: '')        
        afterElements = \
            pyparsing.Optional(pipe + pyparsing.SkipTo(outputParser ^ stringEnd)('pipeTo')) + \
            pyparsing.Optional(outputParser + pyparsing.SkipTo(stringEnd).setParseAction(lambda x: x[0].strip())('outputTo'))
        if self.case_insensitive:
            self.multilineCommand.setParseAction(lambda x: x[0].lower())
            oneLineCommand.setParseAction(lambda x: x[0].lower())
        if self.blankLinesAllowed:
            self.blankLineTerminationParser = pyparsing.NoMatch
        else:
            self.blankLineTerminator = (pyparsing.lineEnd + pyparsing.lineEnd)('terminator')
            self.blankLineTerminator.setResultsName('terminator')
            self.blankLineTerminationParser = ((self.multilineCommand ^ oneLineCommand) + pyparsing.SkipTo(self.blankLineTerminator).setParseAction(lambda x: x[0].strip())('args') + self.blankLineTerminator)('statement')
        self.multilineParser = (((self.multilineCommand ^ oneLineCommand) + SkipToLast(terminatorParser).setParseAction(lambda x: x[0].strip())('args') + terminatorParser)('statement') +
                                pyparsing.SkipTo(outputParser ^ pipe ^ stringEnd).setParseAction(lambda x: x[0].strip())('suffix') + afterElements)
        self.multilineParser.ignore(self.commentInProgress)
        self.singleLineParser = ((oneLineCommand + pyparsing.SkipTo(terminatorParser ^ stringEnd ^ pipe ^ outputParser).setParseAction(lambda x:x[0].strip())('args'))('statement') +
                                 pyparsing.Optional(terminatorParser) + afterElements)
        #self.multilineParser = self.multilineParser.setResultsName('multilineParser')
        #self.singleLineParser = self.singleLineParser.setResultsName('singleLineParser')
        self.blankLineTerminationParser = self.blankLineTerminationParser.setResultsName('statement')
        self.parser = self.prefixParser + (
            stringEnd |
            self.multilineParser |
            self.singleLineParser |
            self.blankLineTerminationParser | 
            self.multilineCommand + pyparsing.SkipTo(stringEnd)
            )
        self.parser.ignore(pyparsing.quotedString).ignore(self.commentGrammars)
        
        inputMark = pyparsing.Literal('<')
        inputMark.setParseAction(lambda x: '')
        fileName = pyparsing.Word(self.legalChars + '/\\')
        inputFrom = fileName('inputFrom')
        inputFrom.setParseAction(replace_with_file_contents)
        # a not-entirely-satisfactory way of distinguishing < as in "import from" from <
        # as in "lesser than"
        self.inputParser = inputMark + pyparsing.Optional(inputFrom) + pyparsing.Optional('>') + \
                           pyparsing.Optional(fileName) + (pyparsing.stringEnd | '|')
        self.inputParser.ignore(pyparsing.quotedString).ignore(self.commentGrammars).ignore(self.commentInProgress)               
    
    def preparse(self, raw, **kwargs):
        return raw
    def postparse(self, parseResult):
        return parseResult
   
    def parsed(self, raw, **kwargs):
        if isinstance(raw, ParsedString):
            p = raw
        else:
            # preparse is an overridable hook; default makes no changes
            s = self.preparse(raw, **kwargs)
            s = self.inputParser.transformString(s.lstrip())
            s = self.commentGrammars.transformString(s)
            for (shortcut, expansion) in self.shortcuts:
                if s.lower().startswith(shortcut):
                    s = s.replace(shortcut, expansion + ' ', 1)
                    break
            result = self.parser.parseString(s)
            result['raw'] = raw            
            result['command'] = result.multilineCommand or result.command        
            result = self.postparse(result)
            p = ParsedString(result.args)
            p.parsed = result
            p.parser = self.parsed
        for (key, val) in kwargs.items():
            p.parsed[key] = val
        return p
              
    def postparsing_precmd(self, statement):
        stop = 0
        return stop, statement
    def postparsing_postcmd(self, stop):
        return stop
    
    def func_named(self, arg):
        result = None
        target = 'do_' + arg
        if target in dir(self):
            result = target
        else:
            if self.abbrev:   # accept shortened versions of commands
                funcs = [fname for fname in self.keywords if fname.startswith(arg)]
                if len(funcs) == 1:
                    result = 'do_' + funcs[0]
        return result
    def onecmd_plus_hooks(self, line):
        stop = 0
        try:
            statement = self.complete_statement(line)
            (stop, statement) = self.postparsing_precmd(statement)
            if stop:
                return self.postparsing_postcmd(stop)
            if statement.parsed.command not in self.excludeFromHistory:
                self.history.append(statement.parsed.raw)      
            try:
                self.redirect_output(statement)
                timestart = datetime.datetime.now()
                statement = self.precmd(statement)
                stop = self.onecmd(statement)
                stop = self.postcmd(stop, statement)
                if self.timing:
                    self.pfeedback('Elapsed: %s' % str(datetime.datetime.now() - timestart))
            finally:
                self.restore_output(statement)
        except EmptyStatement:
            return 0
        except Exception, e:
            self.perror(str(e), statement)            
        finally:
            return self.postparsing_postcmd(stop)        
    def complete_statement(self, line):
        """Keep accepting lines of input until the command is complete."""
        if (not line) or (
            not pyparsing.Or(self.commentGrammars).
                setParseAction(lambda x: '').transformString(line)):
            raise EmptyStatement
        statement = self.parsed(line)
        while statement.parsed.multilineCommand and (statement.parsed.terminator == ''):
            statement = '%s\n%s' % (statement.parsed.raw, 
                                    self.pseudo_raw_input(self.continuation_prompt))                
            statement = self.parsed(statement)
        if not statement.parsed.command:
            raise EmptyStatement
        return statement
    
    def redirect_output(self, statement):
        if statement.parsed.pipeTo:
            self.kept_state = Statekeeper(self, ('stdout',))
            self.kept_sys = Statekeeper(sys, ('stdout',))
            self.redirect = subprocess.Popen(statement.parsed.pipeTo, shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
            sys.stdout = self.stdout = self.redirect.stdin
        elif statement.parsed.output:
            if (not statement.parsed.outputTo) and (not can_clip):
                raise EnvironmentError('Cannot redirect to paste buffer; install ``xclip`` and re-run to enable')
            self.kept_state = Statekeeper(self, ('stdout',))            
            self.kept_sys = Statekeeper(sys, ('stdout',))
            if statement.parsed.outputTo:
                mode = 'w'
                if statement.parsed.output == '>>':
                    mode = 'a'
                sys.stdout = self.stdout = open(os.path.expanduser(statement.parsed.outputTo), mode)                            
            else:
                sys.stdout = self.stdout = tempfile.TemporaryFile(mode="w+")
                if statement.parsed.output == '>>':
                    self.stdout.write(get_paste_buffer())
                    
    def restore_output(self, statement):
        if self.kept_state:
            if statement.parsed.output:
                if not statement.parsed.outputTo:
                    self.stdout.seek(0)
                    write_to_paste_buffer(self.stdout.read())
            elif statement.parsed.pipeTo:
                for result in self.redirect.communicate():              
                    self.kept_state.stdout.write(result or '')                        
            self.stdout.close()
            self.kept_state.restore()  
            self.kept_sys.restore()
            self.kept_state = None                        
                        
    def onecmd(self, line):
        """Interpret the argument as though it had been typed in response
        to the prompt.

        This may be overridden, but should not normally need to be;
        see the precmd() and postcmd() methods for useful execution hooks.
        The return value is a flag indicating whether interpretation of
        commands by the interpreter should stop.
        
        This (`cmd2`) version of `onecmd` already override's `cmd`'s `onecmd`.

        """
        statement = self.parsed(line)
        self.lastcmd = statement.parsed.raw   
        funcname = self.func_named(statement.parsed.command)
        if not funcname:
            return self._default(statement)
        try:
            func = getattr(self, funcname)
        except AttributeError:
            return self._default(statement)
        stop = func(statement) 
        return stop                
        
    def _default(self, statement):
        arg = statement.full_parsed_statement()
        if self.default_to_shell:
            result = os.system(arg)
            if not result:
                return self.postparsing_postcmd(None)
        return self.postparsing_postcmd(self.default(arg))

    def pseudo_raw_input(self, prompt):
        """copied from cmd's cmdloop; like raw_input, but accounts for changed stdin, stdout"""
        
        if self.use_rawinput:
            try:
                line = raw_input(prompt)
            except EOFError:
                line = 'EOF'
        else:
            self.stdout.write(prompt)
            self.stdout.flush()
            line = self.stdin.readline()
            if not len(line):
                line = 'EOF'
            else:
                if line[-1] == '\n': # this was always true in Cmd
                    line = line[:-1] 
        return line
    
    def _cmdloop(self, intro=None):
        """Repeatedly issue a prompt, accept input, parse an initial prefix
        off the received input, and dispatch to action methods, passing them
        the remainder of the line as argument.
        """

        # An almost perfect copy from Cmd; however, the pseudo_raw_input portion
        # has been split out so that it can be called separately
        
        self.preloop()
        if self.use_rawinput and self.completekey:
            try:
                import readline
                self.old_completer = readline.get_completer()
                readline.set_completer(self.complete)
                readline.parse_and_bind(self.completekey+": complete")
            except ImportError:
                pass
        try:
            if intro is not None:
                self.intro = intro
            if self.intro:
                self.stdout.write(str(self.intro)+"\n")
            stop = None
            while not stop:
                if self.cmdqueue:
                    line = self.cmdqueue.pop(0)
                else:
                    line = self.pseudo_raw_input(self.prompt)
                if (self.echo) and (isinstance(self.stdin, file)):
                    self.stdout.write(line + '\n')
                stop = self.onecmd_plus_hooks(line)
            self.postloop()
        finally:
            if self.use_rawinput and self.completekey:
                try:
                    import readline
                    readline.set_completer(self.old_completer)
                except ImportError:
                    pass    
            return stop

    def do_EOF(self, arg):
        return self._STOP_SCRIPT_NO_EXIT # End of script; should not exit app
    do_eof = do_EOF
                           
    def do_quit(self, arg):
        return self._STOP_AND_EXIT
    do_exit = do_quit
    do_q = do_quit
    
    def select(self, options, prompt='Your choice? '):
        '''Presents a numbered menu to the user.  Modelled after
           the bash shell's SELECT.  Returns the item chosen.
           
           Argument ``options`` can be:

             | a single string -> will be split into one-word options
             | a list of strings -> will be offered as options
             | a list of tuples -> interpreted as (value, text), so 
                                   that the return value can differ from
                                   the text advertised to the user '''
        if isinstance(options, basestring):
            options = zip(options.split(), options.split())
        fulloptions = []
        for opt in options:
            if isinstance(opt, basestring):
                fulloptions.append((opt, opt))
            else:
                try:
                    fulloptions.append((opt[0], opt[1]))
                except IndexError:
                    fulloptions.append((opt[0], opt[0]))
        for (idx, (value, text)) in enumerate(fulloptions):
            self.poutput('  %2d. %s\n' % (idx+1, text))
        while True:
            response = raw_input(prompt)
            try:
                response = int(response)
                result = fulloptions[response - 1][0]
                break
            except ValueError:
                pass # loop and ask again
        return result
    
    @options([make_option('-l', '--long', action="store_true",
                 help="describe function of parameter")])    
    def do_show(self, arg, opts):
        '''Shows value of a parameter.'''
        param = arg.strip().lower()
        result = {}
        maxlen = 0
        for p in self.settable:
            if (not param) or p.startswith(param):
                result[p] = '%s: %s' % (p, str(getattr(self, p)))
                maxlen = max(maxlen, len(result[p]))
        if result:
            for p in sorted(result):
                if opts.long:
                    self.poutput('%s # %s' % (result[p].ljust(maxlen), self.settable[p]))
                else:
                    self.poutput(result[p])
        else:
            raise NotImplementedError("Parameter '%s' not supported (type 'show' for list of parameters)." % param)
    
    def do_set(self, arg):
        '''
        Sets a cmd2 parameter.  Accepts abbreviated parameter names so long
        as there is no ambiguity.  Call without arguments for a list of 
        settable parameters with their values.'''
        try:
            statement, paramName, val = arg.parsed.raw.split(None, 2)
            val = val.strip()
            paramName = paramName.strip().lower()
            if paramName not in self.settable:
                hits = [p for p in self.settable if p.startswith(paramName)]
                if len(hits) == 1:
                    paramName = hits[0]
                else:
                    return self.do_show(paramName)
            currentVal = getattr(self, paramName)
            if (val[0] == val[-1]) and val[0] in ("'", '"'):
                val = val[1:-1]
            else:                
                val = cast(currentVal, val)
            setattr(self, paramName, val)
            self.stdout.write('%s - was: %s\nnow: %s\n' % (paramName, currentVal, val))
            if currentVal != val:
                try:
                    onchange_hook = getattr(self, '_onchange_%s' % paramName)
                    onchange_hook(old=currentVal, new=val)
                except AttributeError:
                    pass
        except (ValueError, AttributeError, NotSettableError), e:
            self.do_show(arg)
                
    def do_pause(self, arg):
        'Displays the specified text then waits for the user to press RETURN.'
        raw_input(arg + '\n')
        
    def do_shell(self, arg):
        'execute a command as if at the OS prompt.'
        os.system(arg)
                
    def do_py(self, arg):  
        '''
        py <command>: Executes a Python command.
        py: Enters interactive Python mode.
        End with ``Ctrl-D`` (Unix) / ``Ctrl-Z`` (Windows), ``quit()``, '`exit()``.
        Non-python commands can be issued with ``cmd("your command")``.
        Run python code from external files with ``run("filename.py")``
        '''
        self.pystate['self'] = self
        arg = arg.parsed.raw[2:].strip()
        localvars = (self.locals_in_py and self.pystate) or {}
        interp = InteractiveConsole(locals=localvars)
        interp.runcode('import sys, os;sys.path.insert(0, os.getcwd())')
        if arg.strip():
            interp.runcode(arg)
        else:
            def quit():
                raise EmbeddedConsoleExit
            def onecmd_plus_hooks(arg):
                return self.onecmd_plus_hooks(arg + '\n')
            def run(arg):
                try:
                    file = open(arg)
                    interp.runcode(file.read())
                    file.close()
                except IOError, e:
                    self.perror(e)
            self.pystate['quit'] = quit
            self.pystate['exit'] = quit
            self.pystate['cmd'] = onecmd_plus_hooks
            self.pystate['run'] = run
            try:
                cprt = 'Type "help", "copyright", "credits" or "license" for more information.'        
                keepstate = Statekeeper(sys, ('stdin','stdout'))
                sys.stdout = self.stdout
                sys.stdin = self.stdin
                interp.interact(banner= "Python %s on %s\n%s\n(%s)\n%s" %
                       (sys.version, sys.platform, cprt, self.__class__.__name__, self.do_py.__doc__))
            except EmbeddedConsoleExit:
                pass
            keepstate.restore()
            
    def do_history(self, arg):
        """history [arg]: lists past commands issued
        
        | no arg:         list all
        | arg is integer: list one history item, by index
        | arg is string:  string search
        | arg is /enclosed in forward-slashes/: regular expression search
        """
        if arg:
            history = self.history.get(arg)
        else:
            history = self.history
        for hi in history:
            self.stdout.write(hi.pr())
    def last_matching(self, arg):
        try:
            if arg:
                return self.history.get(arg)[-1]
            else:
                return self.history[-1]
        except IndexError:
            return None        
    def do_list(self, arg):
        """list [arg]: lists last command issued
        
        no arg -> list most recent command
        arg is integer -> list one history item, by index
        a..b, a:b, a:, ..b -> list spans from a (or start) to b (or end)
        arg is string -> list all commands matching string search
        arg is /enclosed in forward-slashes/ -> regular expression search
        """
        try:
            history = self.history.span(arg or '-1')
        except IndexError:
            history = self.history.search(arg)
        for hi in history:
            self.poutput(hi.pr())

    do_hi = do_history
    do_l = do_list
    do_li = do_list
        
    def do_ed(self, arg):
        """ed: edit most recent command in text editor
        ed [N]: edit numbered command from history
        ed [filename]: edit specified file name
        
        commands are run after editor is closed.
        "set edit (program-name)" or set  EDITOR environment variable
        to control which editing program is used."""
        if not self.editor:
            raise EnvironmentError("Please use 'set editor' to specify your text editing program of choice.")
        filename = self.default_file_name
        if arg:
            try:
                buffer = self.last_matching(int(arg))
            except ValueError:
                filename = arg
                buffer = ''
        else:
            buffer = self.history[-1]

        if buffer:
            f = open(os.path.expanduser(filename), 'w')
            f.write(buffer or '')
            f.close()        
                
        os.system('%s %s' % (self.editor, filename))
        self.do__load(filename)
    do_edit = do_ed
    
    saveparser = (pyparsing.Optional(pyparsing.Word(pyparsing.nums)^'*')("idx") + 
                  pyparsing.Optional(pyparsing.Word(legalChars + '/\\'))("fname") +
                  pyparsing.stringEnd)    
    def do_save(self, arg):
        """`save [N] [filename.ext]`

        Saves command from history to file.

        | N => Number of command (from history), or `*`; 
        |      most recent command if omitted"""

        try:
            args = self.saveparser.parseString(arg)
        except pyparsing.ParseException:
            self.perror('Could not understand save target %s' % arg)
            raise SyntaxError(self.do_save.__doc__)
        fname = args.fname or self.default_file_name
        if args.idx == '*':
            saveme = '\n\n'.join(self.history[:])
        elif args.idx:
            saveme = self.history[int(args.idx)-1]
        else:
            saveme = self.history[-1]
        try:
            f = open(os.path.expanduser(fname), 'w')
            f.write(saveme)
            f.close()
            self.pfeedback('Saved to %s' % (fname))
        except Exception, e:
            self.perror('Error saving %s' % (fname))
            raise
            
    def read_file_or_url(self, fname):
        # TODO: not working on localhost
        if isinstance(fname, file):
            result = open(fname, 'r')
        else:
            match = self.urlre.match(fname)
            if match:
                result = urllib.urlopen(match.group(1))
            else:
                fname = os.path.expanduser(fname)
                try:
                    result = open(os.path.expanduser(fname), 'r')
                except IOError:                    
                    result = open('%s.%s' % (os.path.expanduser(fname), 
                                             self.defaultExtension), 'r')
        return result
        
    def do__relative_load(self, arg=None):
        '''
        Runs commands in script at file or URL; if this is called from within an
        already-running script, the filename will be interpreted relative to the 
        already-running script's directory.'''
        if arg:
            arg = arg.split(None, 1)
            targetname, args = arg[0], (arg[1:] or [''])[0]
            targetname = os.path.join(self.current_script_dir or '', targetname)
            self.do__load('%s %s' % (targetname, args))
    
    urlre = re.compile('(https?://[-\\w\\./]+)')
    def do_load(self, arg=None):           
        """Runs script of command(s) from a file or URL."""
        if arg is None:
            targetname = self.default_file_name
        else:
            arg = arg.split(None, 1)
            targetname, args = arg[0], (arg[1:] or [''])[0].strip()
        try:
            target = self.read_file_or_url(targetname)
        except IOError, e:
            self.perror('Problem accessing script from %s: \n%s' % (targetname, e))
            return
        keepstate = Statekeeper(self, ('stdin','use_rawinput','prompt',
                                       'continuation_prompt','current_script_dir'))
        self.stdin = target    
        self.use_rawinput = False
        self.prompt = self.continuation_prompt = ''
        self.current_script_dir = os.path.split(targetname)[0]
        stop = self._cmdloop()
        self.stdin.close()
        keepstate.restore()
        self.lastcmd = ''
        return stop and (stop != self._STOP_SCRIPT_NO_EXIT)    
    do__load = do_load  # avoid an unfortunate legacy use of do_load from sqlpython
    
    def do_run(self, arg):
        """run [arg]: re-runs an earlier command
        
        no arg -> run most recent command
        arg is integer -> run one history item, by index
        arg is string -> run most recent command by string search
        arg is /enclosed in forward-slashes/ -> run most recent by regex
        """        
        'run [N]: runs the SQL that was run N commands ago'
        runme = self.last_matching(arg)
        self.pfeedback(runme)
        if runme:
            stop = self.onecmd_plus_hooks(runme)
    do_r = do_run        
            
    def fileimport(self, statement, source):
        try:
            f = open(os.path.expanduser(source))
        except IOError:
            self.stdout.write("Couldn't read from file %s\n" % source)
            return ''
        data = f.read()
        f.close()
        return data

    def runTranscriptTests(self, callargs):
        class TestMyAppCase(Cmd2TestCase):
            CmdApp = self.__class__        
        self.__class__.testfiles = callargs
        sys.argv = [sys.argv[0]] # the --test argument upsets unittest.main()
        testcase = TestMyAppCase()
        runner = unittest.TextTestRunner()
        result = runner.run(testcase)
        result.printErrors()

    def run_commands_at_invocation(self, callargs):
        for initial_command in callargs:
            if self.onecmd_plus_hooks(initial_command + '\n'):
                return self._STOP_AND_EXIT

    def cmdloop(self):
        parser = optparse.OptionParser()
        parser.add_option('-t', '--test', dest='test',
               action="store_true", 
               help='Test against transcript(s) in FILE (wildcards OK)')
        (callopts, callargs) = parser.parse_args()
        if callopts.test:
            self.runTranscriptTests(callargs)
        else:
            if not self.run_commands_at_invocation(callargs):
                self._cmdloop()   
            
class HistoryItem(str):
    listformat = '-------------------------[%d]\n%s\n'
    def __init__(self, instr):
        str.__init__(self)
        self.lowercase = self.lower()
        self.idx = None
    def pr(self):
        return self.listformat % (self.idx, str(self))
        
class History(list):
    '''A list of HistoryItems that knows how to respond to user requests.
    >>> h = History([HistoryItem('first'), HistoryItem('second'), HistoryItem('third'), HistoryItem('fourth')])
    >>> h.span('-2..')
    ['third', 'fourth']
    >>> h.span('2..3')
    ['second', 'third']
    >>> h.span('3')
    ['third']    
    >>> h.span(':')
    ['first', 'second', 'third', 'fourth']
    >>> h.span('2..')
    ['second', 'third', 'fourth']
    >>> h.span('-1')
    ['fourth']    
    >>> h.span('-2..-3')
    ['third', 'second']      
    >>> h.search('o')
    ['second', 'fourth']
    >>> h.search('/IR/')
    ['first', 'third']
    '''
    def zero_based_index(self, onebased):
        result = onebased
        if result > 0:
            result -= 1
        return result
    def to_index(self, raw):
        if raw:
            result = self.zero_based_index(int(raw))
        else:
            result = None
        return result
    def search(self, target):
        target = target.strip()
        if target[0] == target[-1] == '/' and len(target) > 1:
            target = target[1:-1]
        else:
            target = re.escape(target)
        pattern = re.compile(target, re.IGNORECASE)
        return [s for s in self if pattern.search(s)]
    spanpattern = re.compile(r'^\s*(?P<start>\-?\d+)?\s*(?P<separator>:|(\.{2,}))?\s*(?P<end>\-?\d+)?\s*$')
    def span(self, raw):
        if raw.lower() in ('*', '-', 'all'):
            raw = ':'
        results = self.spanpattern.search(raw)
        if not results:
            raise IndexError
        if not results.group('separator'):
            return [self[self.to_index(results.group('start'))]]
        start = self.to_index(results.group('start'))
        end = self.to_index(results.group('end'))
        reverse = False
        if end is not None:
            if end < start:
                (start, end) = (end, start)
                reverse = True
            end += 1
        result = self[start:end]
        if reverse:
            result.reverse()
        return result
                
    rangePattern = re.compile(r'^\s*(?P<start>[\d]+)?\s*\-\s*(?P<end>[\d]+)?\s*$')
    def append(self, new):
        new = HistoryItem(new)
        list.append(self, new)
        new.idx = len(self)
    def extend(self, new):
        for n in new:
            self.append(n)
        
    def get(self, getme=None, fromEnd=False):
        if not getme:
            return self
        try:
            getme = int(getme)
            if getme < 0:
                return self[:(-1 * getme)]
            else:
                return [self[getme-1]]
        except IndexError:
            return []
        except ValueError:
            rangeResult = self.rangePattern.search(getme)
            if rangeResult:
                start = rangeResult.group('start') or None
                end = rangeResult.group('start') or None
                if start:
                    start = int(start) - 1
                if end:
                    end = int(end)
                return self[start:end]
                
            getme = getme.strip()

            if getme.startswith(r'/') and getme.endswith(r'/'):
                finder = re.compile(getme[1:-1], re.DOTALL | re.MULTILINE | re.IGNORECASE)
                def isin(hi):
                    return finder.search(hi)
            else:
                def isin(hi):
                    return (getme.lower() in hi.lowercase)
            return [itm for itm in self if isin(itm)]

class NotSettableError(Exception):
    pass
        
def cast(current, new):
    """Tries to force a new value into the same type as the current."""
    typ = type(current)
    if typ == bool:
        try:
            return bool(int(new))
        except (ValueError, TypeError):
            pass
        try:
            new = new.lower()    
        except:
            pass
        if (new=='on') or (new[0] in ('y','t')):
            return True
        if (new=='off') or (new[0] in ('n','f')):
            return False
    else:
        try:
            return typ(new)
        except:
            pass
    print ("Problem setting parameter (now %s) to %s; incorrect type?" % (current, new))
    return current
        
class Statekeeper(object):
    def __init__(self, obj, attribs):
        self.obj = obj
        self.attribs = attribs
        if self.obj:
            self.save()
    def save(self):
        for attrib in self.attribs:
            setattr(self, attrib, getattr(self.obj, attrib))
    def restore(self):
        if self.obj:
            for attrib in self.attribs:
                setattr(self.obj, attrib, getattr(self, attrib))        

class Borg(object):
    '''All instances of any Borg subclass will share state.
    from Python Cookbook, 2nd Ed., recipe 6.16'''
    _shared_state = {}
    def __new__(cls, *a, **k):
        obj = object.__new__(cls, *a, **k)
        obj.__dict__ = cls._shared_state
        return obj
    
class OutputTrap(Borg):
    '''Instantiate  an OutputTrap to divert/capture ALL stdout output.  For use in unit testing.
    Call `tearDown()` to return to normal output.'''
    def __init__(self):
        self.contents = ''
        self.old_stdout = sys.stdout
        sys.stdout = self
    def write(self, txt):
        self.contents += txt
    def read(self):
        result = self.contents
        self.contents = ''
        return result
    def tearDown(self):
        sys.stdout = self.old_stdout
        self.contents = ''
        
class Cmd2TestCase(unittest.TestCase):
    '''Subclass this, setting CmdApp, to make a unittest.TestCase class
       that will execute the commands in a transcript file and expect the results shown.
       See example.py'''
    CmdApp = None
    def fetchTranscripts(self):
        self.transcripts = {}
        for fileset in self.CmdApp.testfiles:
            for fname in glob.glob(fileset):
                tfile = open(fname)
                self.transcripts[fname] = iter(tfile.readlines())
                tfile.close()
        if not len(self.transcripts):
            raise (StandardError,), "No test files found - nothing to test."
    def setUp(self):
        if self.CmdApp:
            self.outputTrap = OutputTrap()
            self.cmdapp = self.CmdApp()
            self.fetchTranscripts()
    def runTest(self): # was testall
        if self.CmdApp:
            its = sorted(self.transcripts.items())
            for (fname, transcript) in its:
                self._test_transcript(fname, transcript)
    regexPattern = pyparsing.QuotedString(quoteChar=r'/', escChar='\\', multiline=True, unquoteResults=True)
    regexPattern.ignore(pyparsing.cStyleComment)
    notRegexPattern = pyparsing.Word(pyparsing.printables)
    notRegexPattern.setParseAction(lambda t: re.escape(t[0]))
    expectationParser = regexPattern | notRegexPattern
    anyWhitespace = re.compile(r'\s', re.DOTALL | re.MULTILINE)
    def _test_transcript(self, fname, transcript):
        lineNum = 0
        finished = False
        line = transcript.next()
        lineNum += 1
        tests_run = 0
        while not finished:
            # Scroll forward to where actual commands begin
            while not line.startswith(self.cmdapp.prompt):
                try:
                    line = transcript.next()
                except StopIteration:
                    finished = True
                    break
                lineNum += 1
            command = [line[len(self.cmdapp.prompt):]]
            line = transcript.next()
            # Read the entirety of a multi-line command
            while line.startswith(self.cmdapp.continuation_prompt):
                command.append(line[len(self.cmdapp.continuation_prompt):])
                try:
                    line = transcript.next()
                except StopIteration:
                    raise (StopIteration, 
                           'Transcript broke off while reading command beginning at line %d with\n%s' 
                           % (command[0]))
                lineNum += 1
            command = ''.join(command)               
            # Send the command into the application and capture the resulting output
            stop = self.cmdapp.onecmd_plus_hooks(command)
            #TODO: should act on ``stop``
            result = self.outputTrap.read()
            # Read the expected result from transcript
            if line.startswith(self.cmdapp.prompt):
                message = '\nFile %s, line %d\nCommand was:\n%s\nExpected: (nothing)\nGot:\n%s\n'%\
                    (fname, lineNum, command, result)     
                self.assert_(not(result.strip()), message)
                continue
            expected = []
            while not line.startswith(self.cmdapp.prompt):
                expected.append(line)
                try:
                    line = transcript.next()
                except StopIteration:
                    finished = True                       
                    break
                lineNum += 1
            expected = ''.join(expected)
            # Compare actual result to expected
            message = '\nFile %s, line %d\nCommand was:\n%s\nExpected:\n%s\nGot:\n%s\n'%\
                (fname, lineNum, command, expected, result)      
            expected = self.expectationParser.transformString(expected)
            # checking whitespace is a pain - let's skip it
            expected = self.anyWhitespace.sub('', expected)
            result = self.anyWhitespace.sub('', result)
            self.assert_(re.match(expected, result, re.MULTILINE | re.DOTALL), message)

    def tearDown(self):
        if self.CmdApp:
            self.outputTrap.tearDown()

if __name__ == '__main__':
    doctest.testmod(optionflags = doctest.NORMALIZE_WHITESPACE)
        
'''
To make your application transcript-testable, replace 

::

  app = MyApp()
  app.cmdloop()
  
with

::

  app = MyApp()
  cmd2.run(app)
  
Then run a session of your application and paste the entire screen contents
into a file, ``transcript.test``, and invoke the test like::

  python myapp.py --test transcript.test

Wildcards can be used to test against multiple transcript files.
'''