Mercurial > python-cmd2
view cmd2.py @ 178:4e1ed90962bc
Added tag 0.4.4 for changeset f2b1643b5173
author | catherine@dellzilla |
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date | Mon, 22 Dec 2008 09:37:20 -0500 |
parents | f2b1643b5173 |
children | 321e0cc35661 |
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"""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 Parsing commands with `optparse` options (flags) Redirection to file with >, >>; input from file with < Easy transcript-based testing of applications (see example/example.py) 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 CHANGES: As of 0.3.0, options should be specified as `optparse` options. See README.txt. flagReader.py options are still supported for backward compatibility """ import cmd, re, os, sys, optparse, subprocess, tempfile, pyparsing, doctest, unittest, string from optparse import make_option __version__ = '0.4.4' class OptionParser(optparse.OptionParser): def exit(self, status=0, msg=None): self.values._exit = True if msg: print msg 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 options(option_list): def option_setup(func): optionParser = OptionParser() for opt in option_list: optionParser.add_option(opt) optionParser.set_usage("%s [options] arg" % func.__name__.strip('do_')) def newFunc(instance, arg): try: opts, newArgs = optionParser.parse_args(arg.split()) newArgs = (newArgs and arg[arg.find(newArgs[0]):]) or '' except (optparse.OptionValueError, optparse.BadOptionError, optparse.OptionError, optparse.AmbiguousOptionError, optparse.OptionConflictError), e: print e optionParser.print_help() return if hasattr(opts, '_exit'): return None arg = arg.parser('%s %s%s%s' % (arg.parsed.command, newArgs, arg.parsed.terminator, arg.parsed.suffix)) result = func(instance, arg, opts) return result newFunc.__doc__ = '%s\n%s' % (func.__doc__, optionParser.format_help()) return newFunc 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) '''check here if functions exist; otherwise, stub out''' pastebufferr = """Redirecting to or from paste buffer requires %s to be installed on operating system. %s""" if subprocess.mswindows: try: import win32clipboard def getPasteBuffer(): win32clipboard.OpenClipboard(0) try: result = win32clipboard.GetClipboardData() except TypeError: result = '' #non-text win32clipboard.CloseClipboard() return result def writeToPasteBuffer(txt): win32clipboard.OpenClipboard(0) win32clipboard.EmptyClipboard() win32clipboard.SetClipboardText(txt) win32clipboard.CloseClipboard() except ImportError: def getPasteBuffer(*args): raise OSError, pastebufferr % ('pywin32', 'Download from http://sourceforge.net/projects/pywin32/') setPasteBuffer = getPasteBuffer else: can_clip = False try: subprocess.check_call('xclip -o -sel clip', shell=True, stdout=subprocess.PIPE, stdin=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 getPasteBuffer(): xclipproc = subprocess.Popen('xclip -o -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE) return xclipproc.stdout.read() def writeToPasteBuffer(txt): xclipproc = subprocess.Popen('xclip -sel clip', shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE) xclipproc.stdin.write(txt) 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) xclipproc.stdin.close() else: def getPasteBuffer(*args): raise OSError, pastebufferr % ('xclip', 'On Debian/Ubuntu, install with "sudo apt-get install xclip"') setPasteBuffer = getPasteBuffer writeToPasteBuffer = getPasteBuffer pyparsing.ParserElement.setDefaultWhitespaceChars(' \t') ''' def parseSearchResults(pattern, s): generator = pattern.scanString(s) try: result, start, stop = generator.next() result['before'], result['after'] = s[:start], s[stop:] result['upToIncluding'] = s[:stop] except StopIteration: result = pyparsing.ParseResults('') result['before'] = s return result ''' def replaceInput(source): if source: newinput = open(source[0], 'r').read() else: newinput = getPasteBuffer() try: if statement.inputFrom: newinput = open(statement.inputFrom, 'r').read() else: newinput = getPasteBuffer() except (OSError,), e: print e return 0 start, end = self.redirectInPattern.scanString(statement.fullStatement).next()[1:] return self.onecmd('%s%s%s' % (statement.fullStatement[:start], newinput, statement.fullStatement[end:])) class ParsedString(str): pass class Cmd(cmd.Cmd): echo = False caseInsensitive = True continuationPrompt = '> ' legalChars = '!#$%.:?@_' + pyparsing.alphanums + pyparsing.alphas8bit # make sure your terminators are not in here! shortcuts = {'?': 'help', '!': 'shell', '@': 'load' } excludeFromHistory = '''run r list l history hi ed edit li eof'''.split() noSpecialParse = 'set ed edit exit'.split() defaultExtension = 'txt' defaultFileName = 'command.txt' settable = ['prompt', 'continuationPrompt', 'defaultFileName', 'editor', 'caseInsensitive', 'echo'] editor = os.environ.get('EDITOR') _STOP_AND_EXIT = 2 if not editor: if sys.platform[:3] == 'win': editor = 'notepad' else: for editor in ['gedit', 'kate', 'vim', 'emacs', 'nano', 'pico']: if not os.system('which %s' % (editor)): break def do_cmdenvironment(self, args): self.stdout.write(""" Commands are %(casesensitive)scase-sensitive. Commands may be terminated with: %(terminators)s Settable parameters: %(settable)s """ % { 'casesensitive': ('not ' and self.caseInsensitive) or '', 'terminators': str(self.terminators), 'settable': ' '.join(self.settable) }) def do_help(self, arg): cmd.Cmd.do_help(self, arg) try: fn = getattr(self, 'do_' + arg) if fn and fn.optionParser: fn.optionParser.print_help(file=self.stdout) except AttributeError: pass def __init__(self, *args, **kwargs): cmd.Cmd.__init__(self, *args, **kwargs) self.history = History() 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 self.shortcuts.items()) self.stdout.write("Single-key shortcuts for other commands:\n%s\n" % (result)) 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): ''' >>> c = Cmd() >>> c.multilineCommands = ['multiline'] >>> c.caseInsensitive = True >>> c._init_parser() >>> 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('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 /* with comment in progress;'] - 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: ; ''' outputParser = pyparsing.oneOf(['>>','>'])('output') terminatorParser = pyparsing.Or([(hasattr(t, 'parseString') and t) or pyparsing.Literal(t) for t in self.terminators])('terminator') stringEnd = pyparsing.stringEnd ^ '\nEOF' multilineCommand = pyparsing.Or([pyparsing.Keyword(c, caseless=self.caseInsensitive) for c in self.multilineCommands])('multilineCommand') oneLineCommand = pyparsing.Word(self.legalChars)('command') pipe = pyparsing.Keyword('|', identChars='|') self.commentGrammars.ignore(pyparsing.sglQuotedString).ignore(pyparsing.dblQuotedString).setParseAction(lambda x: '') self.commentInProgress.ignore(pyparsing.sglQuotedString).ignore(pyparsing.dblQuotedString).ignore(pyparsing.cStyleComment) afterElements = \ pyparsing.Optional(pipe + pyparsing.SkipTo(outputParser ^ stringEnd)('pipeTo')) + \ pyparsing.Optional(outputParser + pyparsing.SkipTo(stringEnd).setParseAction(lambda x: x[0].strip())('outputTo')) if self.caseInsensitive: multilineCommand.setParseAction(lambda x: x[0].lower()) oneLineCommand.setParseAction(lambda x: x[0].lower()) if self.blankLinesAllowed: blankLineTerminationParser = pyparsing.NoMatch else: blankLineTerminator = (pyparsing.Literal('\n')('terminator') + stringEnd) blankLineTerminationParser = ((multilineCommand ^ oneLineCommand) + pyparsing.SkipTo(blankLineTerminator).setParseAction(lambda x: x[0].strip())('args') + blankLineTerminator)('statement') multilineParser = (((multilineCommand ^ oneLineCommand) + pyparsing.SkipTo(terminatorParser).setParseAction(lambda x: x[0].strip())('args') + terminatorParser)('statement') + pyparsing.SkipTo(outputParser ^ pipe ^ stringEnd).setParseAction(lambda x: x[0].strip())('suffix') + afterElements) singleLineParser = ((oneLineCommand + pyparsing.SkipTo(terminatorParser ^ stringEnd ^ pipe ^ outputParser).setParseAction(lambda x:x[0].strip())('args'))('statement') + pyparsing.Optional(terminatorParser) + afterElements) self.parser = ( stringEnd | multilineParser | multilineCommand + pyparsing.SkipTo(stringEnd) | singleLineParser | blankLineTerminationParser ) self.parser.ignore(pyparsing.sglQuotedString).ignore(pyparsing.dblQuotedString).ignore(self.commentGrammars).ignore(self.commentInProgress) inputMark = pyparsing.Literal('<') inputMark.setParseAction(lambda x: '') inputFrom = pyparsing.Word(self.legalChars + '/\\')('inputFrom') inputFrom.setParseAction(lambda x: (x and open(x[0]).read()) or getPasteBuffer()) self.inputParser = inputMark + pyparsing.Optional(inputFrom) self.inputParser.ignore(pyparsing.sglQuotedString).ignore(pyparsing.dblQuotedString).ignore(self.commentGrammars).ignore(self.commentInProgress) def parsed(self, raw, **kwargs): if isinstance(raw, ParsedString): p = raw else: s = self.inputParser.transformString(raw.lstrip()) for (shortcut, expansion) in self.shortcuts.items(): if s.startswith(shortcut): s = s.replace(shortcut, expansion + ' ', 1) break result = self.parser.parseString(s) result['command'] = result.multilineCommand or result.command result['raw'] = raw result['clean'] = self.commentGrammars.transformString(result.args) result['expanded'] = s p = ParsedString(result.clean) p.parsed = result p.parser = self.parsed for (key, val) in kwargs.items(): p.parsed[key] = val return p 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`. """ if not line: return self.emptyline() if not pyparsing.Or(self.commentGrammars).setParseAction(lambda x: '').transformString(line): return 0 try: statement = self.parsed(line) while statement.parsed.multilineCommand and (statement.parsed.terminator == ''): statement = self.parsed('%s\n%s' % (statement.parsed.raw, self.pseudo_raw_input(self.continuationPrompt))) except Exception, e: print e return 0 if not statement.parsed.command: return 0 statekeeper = None stop = 0 if statement.parsed.pipeTo: redirect = subprocess.Popen(statement.parsed.pipeTo, shell=True, stdout=subprocess.PIPE, stdin=subprocess.PIPE) statekeeper = Statekeeper(self, ('stdout',)) self.stdout = redirect.stdin elif statement.parsed.output: statekeeper = Statekeeper(self, ('stdout',)) if statement.parsed.outputTo: mode = 'w' if statement.parsed.output == '>>': mode = 'a' try: self.stdout = open(statement.parsed.outputTo, mode) except OSError, e: print e return 0 else: statekeeper = Statekeeper(self, ('stdout',)) self.stdout = tempfile.TemporaryFile() if statement.parsed.output == '>>': self.stdout.write(getPasteBuffer()) try: # "heart" of the command, replace's cmd's onecmd() self.lastcmd = statement.parsed.expanded try: func = getattr(self, 'do_' + statement.parsed.command) except AttributeError: return self.default(statement) stop = func(statement) except Exception, e: print e try: if statement.parsed.command not in self.excludeFromHistory: self.history.append(statement.parsed.raw) finally: if statekeeper: if statement.parsed.output and not statement.parsed.outputTo: self.stdout.seek(0) try: writeToPasteBuffer(self.stdout.read()) except Exception, e: print str(e) elif statement.parsed.pipeTo: for result in redirect.communicate(): statekeeper.stdout.write(result or '') self.stdout.close() statekeeper.restore() return stop 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') line = self.precmd(line) stop = self.onecmd(line) stop = self.postcmd(stop, 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 True do_eof = do_EOF def showParam(self, param): param = param.strip().lower() if param in self.settable: val = getattr(self, param) self.stdout.write('%s: %s\n' % (param, str(getattr(self, param)))) def do_quit(self, arg): return self._STOP_AND_EXIT do_exit = do_quit do_q = do_quit def do_show(self, arg): 'Shows value of a parameter' if arg.strip(): self.showParam(arg) else: for param in self.settable: self.showParam(param) def do_set(self, arg): 'Sets a parameter' try: paramName, val = arg.split(None, 1) paramName = paramName.strip().lower() if paramName not in self.settable: raise NotSettableError 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)) except (ValueError, AttributeError, NotSettableError), e: self.do_show(arg) def do_shell(self, arg): 'execute a command as if at the OS prompt.' os.system(arg) 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 absolute last arg is integer -> list one history item, by index - arg, arg - (integer) -> list up to or after #arg arg is string -> list last command matching string search arg is /enclosed in forward-slashes/ -> regular expression search """ try: self.stdout.write(self.last_matching(arg).pr()) except: pass 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: print "please use 'set editor' to specify your text editing program of choice." return filename = self.defaultFileName if arg: try: buffer = self.last_matching(int(arg)) except ValueError: filename = arg buffer = '' else: buffer = self.history[-1] if buffer: f = open(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: print self.do_save.__doc__ return fname = args.fname or self.defaultFileName 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(fname, 'w') f.write(saveme) f.close() print 'Saved to %s' % (fname) except Exception, e: print 'Error saving %s: %s' % (fname, str(e)) def do_load(self, fname=None): """Runs command(s) from a file.""" if fname is None: fname = self.defaultFileName keepstate = Statekeeper(self, ('stdin','use_rawinput','prompt','continuationPrompt')) if isinstance(fname, file): self.stdin = fname else: try: self.stdin = open(fname, 'r') except IOError, e: try: self.stdin = open('%s.%s' % (fname, self.defaultExtension), 'r') except IOError: print 'Problem opening file %s: \n%s' % (fname, e) keepstate.restore() return self.use_rawinput = False self.prompt = self.continuationPrompt = '' stop = self.cmdloop() self.stdin.close() keepstate.restore() self.lastcmd = '' return (stop == self._STOP_AND_EXIT) and self._STOP_AND_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) print runme if runme: runme = self.precmd(runme) stop = self.onecmd(runme) stop = self.postcmd(stop, runme) do_r = do_run def fileimport(self, statement, source): try: f = open(source) except IOError: self.stdout.write("Couldn't read from file %s\n" % source) return '' data = f.read() f.close() return data class HistoryItem(str): def __init__(self, instr): str.__init__(self) self.lowercase = self.lower() self.idx = None def pr(self): return '-------------------------[%d]\n%s\n' % (self.idx, str(self)) class History(list): rangeFrom = re.compile(r'^([\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): try: getme = int(getme) if getme < 0: return self[:(-1 * getme)] else: return [self[getme-1]] except IndexError: return [] except (ValueError, TypeError): getme = getme.strip() mtch = self.rangeFrom.search(getme) if mtch: return self[(int(mtch.group(1))-1):] 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 self.save() def save(self): for attrib in self.attribs: setattr(self, attrib, getattr(self.obj, attrib)) def restore(self): 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.old_stdout = sys.stdout self.trap = tempfile.TemporaryFile() sys.stdout = self.trap def read(self): self.trap.seek(0) result = self.trap.read() self.trap.truncate(0) return result.strip('\x00') def tearDown(self): sys.stdout = self.old_stdout class Cmd2TestCase(unittest.TestCase): '''Subclass this, setting CmdApp and transcriptFileName, to make a unittest.TestCase class that will execute the commands in transcriptFileName and expect the results shown. See example.py''' CmdApp = None transcriptFileName = '' def setUp(self): if self.CmdApp: self.outputTrap = OutputTrap() self.cmdapp = self.CmdApp() try: tfile = open(self.transcriptFileName) self.transcript = tfile.readlines() tfile.close() except IOError: self.transcript = [] def divideTranscript(self): self.dialogue = [] commandStart = None response = [] command = [] prompt = self.cmdapp.prompt.rstrip() continuationPrompt = self.cmdapp.continuationPrompt.rstrip() for (lineNum, line) in enumerate(self.transcript): if line.startswith(prompt): if command: self.dialogue.append((commandStart, ''.join(command), ''.join(response))) command = [line[len(prompt)+1:]] commandStart = lineNum response = [] elif line.startswith(continuationPrompt): command.append(line[len(continuationPrompt)+1:]) else: response.append(line) def testall(self): if self.CmdApp: self.divideTranscript() for (lineNum, command, expected) in self.dialogue: self.cmdapp.onecmd(command) result = self.outputTrap.read() self.assertEqual(result.strip(), expected.strip(), '\nFile %s, line %d\nCommand was:\n%s\nExpected:\n%s\nGot:\n%s\n' % (self.transcriptFileName, lineNum, command, expected, result)) def tearDown(self): if self.CmdApp: self.outputTrap.tearDown() if __name__ == '__main__': doctest.testmod(optionflags = doctest.NORMALIZE_WHITESPACE) #c = Cmd()