/usr/share/pyshared/config_manager/optparse.py is in config-manager 0.4-2.1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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By Greg Ward <gward@python.net>
Originally distributed as Optik; see http://optik.sourceforge.net/ .
If you have problems with this module, please do not file bugs,
patches, or feature requests with Python; instead, use Optik's
SourceForge project page:
http://sourceforge.net/projects/optik
For support, use the optik-users@lists.sourceforge.net mailing list
(http://lists.sourceforge.net/lists/listinfo/optik-users).
"""
# Python developers: please do not make changes to this file, since
# it is automatically generated from the Optik source code.
__version__ = "1.4.1+"
__all__ = ['Option',
'ComplexOption',
'FloatOption',
'IntOption',
'LongOption',
'StringOption',
'ParameterisedOption',
'Argument',
'ComplexArgument',
'FloatArgument',
'IntArgument',
'LongArgument',
'StringArgument',
'GrammarElement',
'OneOf',
'Optional',
'Star',
'Sequence',
'TerminalElement',
'SUPPRESS_HELP',
'SUPPRESS_USAGE',
'Values',
'OptionContainer',
'OptionGroup',
'OptionParser',
'HelpFormatter',
'IndentedHelpFormatter',
'TitledHelpFormatter',
'OptParseError',
'OptionError',
'OptionConflictError',
'OptionValueError',
'BadOptionError',
'ArgumentValueError']
__copyright__ = """
Copyright (c) 2001-2003 Gregory P. Ward. All rights reserved.
Copyright (c) 2002-2003 Python Software Foundation. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
"""
import sys, os
import types
import textwrap
# This file was generated from:
# Id: option_parser.py,v 1.57 2003/08/27 02:35:41 goodger Exp
# Id: option.py,v 1.26 2003/05/08 01:20:36 gward Exp
# Id: garbage
# Id: argument.py,v
# Id: grammar.py,v
# Id: help.py,v 1.6 2003/08/27 02:35:41 goodger Exp
# Id: errors.py,v 1.7 2003/04/21 01:53:28 gward Exp
class OptParseError (Exception):
def __init__ (self, msg):
self.msg = msg
def __str__ (self):
return self.msg
class OptionError (OptParseError):
"""
Raised if an Option instance is created with invalid or
inconsistent arguments.
"""
def __init__ (self, msg, option):
self.msg = msg
self.option_id = str(option)
def __str__ (self):
if self.option_id:
return "option %s: %s" % (self.option_id, self.msg)
else:
return self.msg
class ArgumentValueError (OptParseError):
"""
Raised if an argument value is invalid.
"""
class OptionConflictError (OptionError):
"""
Raised if conflicting options are added to an OptionParser.
"""
class OptionValueError (OptParseError):
"""
Raised if an invalid option value is encountered on the command
line.
"""
class BadOptionError (OptParseError):
"""
Raised if an invalid or ambiguous option is seen on the command-line.
"""
class HelpFormatter:
"""
Abstract base class for formatting option help. OptionParser
instances should use one of the HelpFormatter subclasses for
formatting help; by default IndentedHelpFormatter is used.
Instance attributes:
indent_increment : int
the number of columns to indent per nesting level
max_help_position : int
the maximum starting column for option help text
help_position : int
the calculated starting column for option help text;
initially the same as the maximum
width : int
total number of columns for output
level : int
current indentation level
current_indent : int
current indentation level (in columns)
help_width : int
number of columns available for option help text (calculated)
"""
def __init__ (self,
indent_increment,
max_help_position,
width,
short_first):
self.indent_increment = indent_increment
self.help_position = self.max_help_position = max_help_position
self.width = width
self.current_indent = 0
self.level = 0
self.help_width = width - max_help_position
self.short_first = short_first
def indent (self):
self.current_indent += self.indent_increment
self.level += 1
def dedent (self):
self.current_indent -= self.indent_increment
assert self.current_indent >= 0, "Indent decreased below 0."
self.level -= 1
def format_usage (self, usage):
raise NotImplementedError, "subclasses must implement"
def format_heading (self, heading):
raise NotImplementedError, "subclasses must implement"
def format_description (self, description):
desc_width = self.width - self.current_indent
indent = " "*self.current_indent
return textwrap.fill(description, desc_width,
initial_indent=indent,
subsequent_indent=indent) + "\n"
def format_option (self, option):
# The help for each option consists of two parts:
# * the opt strings and metavars
# eg. ("-x", or "-fFILENAME, --file=FILENAME")
# * the user-supplied help string
# eg. ("turn on expert mode", "read data from FILENAME")
#
# If possible, we write both of these on the same line:
# -x turn on expert mode
#
# But if the opt string list is too long, we put the help
# string on a second line, indented to the same column it would
# start in if it fit on the first line.
# -fFILENAME, --file=FILENAME
# read data from FILENAME
result = []
opts = option.option_strings
opt_width = self.help_position - self.current_indent - 2
if len(opts) > opt_width:
opts = "%*s%s\n" % (self.current_indent, "", opts)
indent_first = self.help_position
else: # start help on same line as opts
opts = "%*s%-*s " % (self.current_indent, "", opt_width, opts)
indent_first = 0
result.append(opts)
if option.help:
help_lines = textwrap.wrap(option.help, self.help_width)
result.append("%*s%s\n" % (indent_first, "", help_lines[0]))
result.extend(["%*s%s\n" % (self.help_position, "", line)
for line in help_lines[1:]])
elif opts[-1] != "\n":
result.append("\n")
return "".join(result)
def store_option_strings (self, parser):
self.indent()
max_len = 0
for opt in parser.option_list:
strings = self.format_option_strings(opt)
opt.option_strings = strings
max_len = max(max_len, len(strings) + self.current_indent)
self.indent()
for group in parser.option_groups:
for opt in group.option_list:
strings = self.format_option_strings(opt)
opt.option_strings = strings
max_len = max(max_len, len(strings) + self.current_indent)
self.dedent()
self.dedent()
self.help_position = min(max_len + 2, self.max_help_position)
def format_option_strings (self, option):
"""Return a comma-separated list of option strings & metavariables."""
if option.takes_value():
metavar = option.metavar or option.dest.upper()
short_opts = [sopt + metavar for sopt in option._short_opts]
long_opts = [lopt + "=" + metavar for lopt in option._long_opts]
else:
short_opts = option._short_opts
long_opts = option._long_opts
if self.short_first:
opts = short_opts + long_opts
else:
opts = long_opts + short_opts
return ", ".join(opts)
class IndentedHelpFormatter (HelpFormatter):
"""Format help with indented section bodies.
"""
def __init__ (self,
indent_increment=2,
max_help_position=24,
width=78,
short_first=1):
HelpFormatter.__init__(
self, indent_increment, max_help_position, width, short_first)
def format_usage (self, usage):
return "usage: %s\n" % usage
def format_heading (self, heading):
return "%*s%s:\n" % (self.current_indent, "", heading)
class TitledHelpFormatter (HelpFormatter):
"""Format help with underlined section headers.
"""
def __init__ (self,
indent_increment=0,
max_help_position=24,
width=78,
short_first=0):
HelpFormatter.__init__ (
self, indent_increment, max_help_position, width, short_first)
def format_usage (self, usage):
return "%s %s\n" % (self.format_heading("Usage"), usage)
def format_heading (self, heading):
return "%s\n%s\n" % (heading, "=-"[self.level] * len(heading))
class GrammarElement(object):
"""I represent a grammar as a composite structure"""
def __cmp__(self, other):
if id(self)==id(other):
return 0
if other is None:
return 1
return cmp(self.__class__, other.__class__)
def parse(self, argv):
"""parse a list of arguments"""
raise RuntimeError("Not implemented - implement in child classes")
def rule(self):
"""return a string rule for this grammar. We don't reuse str() as this MUST be implemented by derived classes."""
raise RuntimeError("Not implemented - implement in child classes")
class OneOf(GrammarElement):
"""I try my children, and return when one succeeds. No success is a failure."""
def __cmp__(self, other):
result=GrammarElement.__cmp__(self, other)
if result:
return result
return cmp(self.children, other.children)
def __init__(self, children):
GrammarElement.__init__(self)
self.children = children
def checkOneRule(self, built, aRule):
"""add aRule to built if aRule isn't empty"""
if aRule:
if len(built) > 0:
built+="|%s" % aRule
else:
built+=aRule
return built
def complete(self, args, argindex, charindex):
"""assemble the union of completions from self.children"""
from copy import copy
if not self.children:
return ([],[], [])
result=[[],[],[]]
success=False
for child in self.children:
saved_argv=copy(args)
try:
aResult=child.complete(saved_argv,argindex,charindex)
if aResult:
result[0].extend(aResult[0])
result[1].extend(aResult[1])
for item in aResult[2]:
if not item in result[2]:
result[2].append(item)
success=True
except ArgumentValueError:
pass
if not success:
raise ArgumentValueError("No child parsed successfully")
if len(result[2]) > 1:
result[2]=[self.__class__(tuple(result[2]))]
return tuple(result)
def parse(self, argv):
"""for everything in argv invoke our children until we succeed"""
from copy import copy
for child in self.children:
saved_argv=copy(argv)
try:
return child.parse(argv)
except ArgumentValueError:
argv=saved_argv
raise ArgumentValueError("No child parsed successfully")
def rule(self):
"""the rule for one of is child|child|child"""
result=""
for child in self.children:
result = self.checkOneRule(result, child.rule())
return result
class Optional(OneOf):
"""I parse the common [foo] syntax - an optional element."""
def __cmp__(self, other):
return OneOf.__cmp__(self, other)
def __init__(self, child):
OneOf.__init__(self, None)
# to support the cheap in dirty OneOf.complete() magic
if type(child) == tuple:
self.children=child
else:
self.children = (child, TerminalElement())
def rule(self):
"""[child] - easy eh:}"""
return "[%s]" % self.children[0].rule()
class Star(GrammarElement):
"""I represent 0 to many grammar elements, from my single grammar child."""
def __init__(self, child):
GrammarElement.__init__(self)
self.child = child
def complete(self, args, argindex, charindex):
result=None
while args:
oldlen=len(args)
result=self.child.complete(args, argindex, charindex)
argindex=argindex-oldlen+len(args)
if result:
return result
return None
def parse(self, argv):
"""for everything in argv invoke our child"""
result=[]
while argv:
result.extend(self.child.parse(argv))
return result
def rule(self):
"""we use the command line idiom [thing ...] to represent *."""
return "[%s ...]" % self.child.rule()
class Sequence(GrammarElement):
"""I represent a sequence of grammar elements."""
def __init__(self, children):
GrammarElement.__init__(self)
self.children = children
def complete_a_child(self, child, args, argindex, charindex):
"""helper function for complete. This
processes one child completion, and returns the required
state to continue processing"""
oldlen=len(args)
result=child.complete(args, argindex, charindex)
argindex=argindex-oldlen+len(args)
return (result, argindex)
def complete(self, args, argindex, charindex):
if not self.children:
return ([],[], [])
result=None
for child in self.children:
oldlen=len(args)
result=child.complete(args, argindex, charindex)
argindex=argindex-oldlen+len(args)
if result:
return result
return result
def parse(self, argv):
"""for everything in argv invoke our child"""
result=[]
for child in self.children:
result.extend(child.parse(argv))
return result
def rule(self):
"""the rule for a sequence is the rules for it's children with spaces between."""
result=""
for child in self.children:
result+=" %s" % child.rule()
return result.strip()
class TerminalElement(GrammarElement):
"""I fail to parse on anything other than empty imput"""
#def __cmp__(self, other):
# return GrammarElement.__cmp__(self,other)
def parse(self, argv):
"""I fail to parse on anything other than empty imput"""
if len(argv):
raise ArgumentValueError("End of arguments expected!")
return argv
def complete(self, args, argindex, charindex):
if args:
#validate current token
temp=self.parse(args)[0]
return ([],[],[self])
def rule(self):
"""A Terminal rule is simply an empty string"""
return ""
class Argument(GrammarElement):
"""I represent a positional argument"""
def __cmp__(self, other):
return GrammarElement.__cmp__(self,other)
class StringArgument(Argument):
"""I parse string arguments - the most common type of argument"""
def complete(self, args, argindex, charindex):
if argindex==0:
if len(args): args.pop(0)
return ([],[], [self])
#eat current token
temp=self.parse(args)[0]
return None
def rule(self):
return "string"
def parse(self, argv):
"""just accept the front token"""
if not argv:
raise ArgumentValueError("No argument found!")
return [argv.pop(0)]
class ConvertingArgument(Argument):
"""I provide template style handling for arguments - I just try coercion"""
def __cmp__(self, other):
result=Argument.__cmp__(self, other)
if result:
return result
return cmp(self.klass, other.klass)
def __init__(self, klass, *args, **kwargs):
self.klass=klass
Argument.__init__(self, *args, **kwargs)
def parse (self, argv):
"""cast the front element if possible"""
if not argv:
raise ArgumentValueError("No argument found!")
try:
return [self.klass(argv.pop(0))]
except ValueError:
raise ArgumentValueError("Cannot cast token into %s" % self.rule())
class ComplexArgument(ConvertingArgument):
"""I parse complex number arguments"""
def __init__(self):
ConvertingArgument.__init__(self, complex)
def rule(self):
return "complex"
class FloatArgument(ConvertingArgument):
"""I parse floating point number arguments"""
def __init__(self):
ConvertingArgument.__init__(self, float)
def rule(self):
return "float"
class IntArgument(ConvertingArgument):
"""I parse int arguments"""
_completions=(['0','1','2','3','4','5','6','7','8','9'],[])
def __cmp__(self, other):
return ConvertingArgument.__cmp__(self, other)
def __init__(self):
ConvertingArgument.__init__(self, int)
def complete(self, args, argindex, charindex):
if not args:
#default completions
return (self._completions[0], self._completions[1], [self])
#validate current token
temp=self.parse(args)[0]
#TODO: if the temp int string length is will exceed Int
#storage if another char is added, return [],[]
if argindex == 0:
return (self._completions[0], self._completions[1], [self])
return None
def rule(self):
return "int"
class LongArgument(ConvertingArgument):
"""I parse long arguments"""
def __init__(self):
ConvertingArgument.__init__(self, long)
def rule(self):
return "long"
_builtin_cvt = { "int" : (int, "integer"),
"long" : (long, "long integer"),
"float" : (float, "floating-point"),
"complex" : (complex, "complex") }
def check_builtin (option, opt, value):
(cvt, what) = _builtin_cvt[option.type]
try:
return cvt(value)
except ValueError:
raise OptionValueError(
#"%s: invalid %s argument %r" % (opt, what, value))
"option %s: invalid %s value: %r" % (opt, what, value))
def check_choice(option, opt, value):
if value in option.choices:
return value
else:
choices = ", ".join(map(repr, option.choices))
raise OptionValueError(
"option %s: invalid choice: %r (choose from %s)"
% (opt, value, choices))
class OptionTypes(object):
"""I am an abstract factory for the creation of Options"""
# The set of known types for option parsers. Again, listed here for
# constructor argument validation.
TYPES = ("string", "int", "long", "float", "complex", "choice")
# Dictionary of argument checking functions, which convert and
# validate option arguments according to the option type.
#
# Signature of checking functions is:
# check(option : Option, opt : string, value : string) -> any
# where
# option is the Option instance calling the checker
# opt is the actual option seen on the command-line
# (eg. "-a", "--file")
# value is the option argument seen on the command-line
#
# The return value should be in the appropriate Python type
# for option.type -- eg. an integer if option.type == "int".
#
# If no checker is defined for a type, arguments will be
# unchecked and remain strings.
TYPE_CHECKER = { "int" : check_builtin,
"long" : check_builtin,
"float" : check_builtin,
"complex" : check_builtin,
"choice" : check_choice,
}
newTypes={}
"""Dictionary mapping type names to classes"""
def add_type(option_class_name, option_class, override_legacy=False):
"""register a type constructor into the the global registry of types. """
if (not override_legacy and option_class_name in OptionTypes.TYPES) or option_class_name in OptionTypes.newTypes:
raise KeyError("type already present")
OptionTypes.newTypes[option_class_name]=option_class
add_type=staticmethod(add_type)
def factory(default_type, *args, **kwargs):
"""create an Option or a subclassed Option based on the arguments"""
typestr=kwargs.get('type',None)
if typestr:
type=OptionTypes.newTypes.get(typestr,None)
if type:
return type(*args, **kwargs)
return default_type(*args, **kwargs)
factory=staticmethod(factory)
def valid_type(someOption):
"""return true if someOption is a type in newTypes"""
for type in OptionTypes.newTypes.items():
if isinstance(someOption, type[1]):
return True
return False
valid_type=staticmethod(valid_type)
# Not supplying a default is different from a default of None,
# so we need an explicit "not supplied" value.
NO_DEFAULT = "NO"+"DEFAULT"
class Option:
"""
Instance attributes:
_short_opts : [string]
_long_opts : [string]
action : string
type : string
dest : string
default : any
nargs : int
const : any
choices : [string]
callback : function
callback_args : (any*)
callback_kwargs : { string : any }
help : string
metavar : string
"""
# The list of instance attributes that may be set through
# keyword args to the constructor.
ATTRS = ['action',
'type',
'dest',
'default',
'nargs',
'const',
'choices',
'callback',
'callback_args',
'callback_kwargs',
'help',
'metavar']
# The set of actions allowed by option parsers. Explicitly listed
# here so the constructor can validate its arguments.
ACTIONS = ("store",
"store_const",
"store_true",
"store_false",
"append",
"count",
"callback",
"help",
"version")
# The set of actions that involve storing a value somewhere;
# also listed just for constructor argument validation. (If
# the action is one of these, there must be a destination.)
STORE_ACTIONS = ("store",
"store_const",
"store_true",
"store_false",
"append",
"count")
# The set of actions for which it makes sense to supply a value
# type, ie. where we expect an argument to this option.
TYPED_ACTIONS = ("store",
"append",
"callback")
# Legacy direct-internal modification API.
TYPES = OptionTypes.TYPES
TYPE_CHECKER = OptionTypes.TYPE_CHECKER
# CHECK_METHODS is a list of unbound method objects; they are called
# by the constructor, in order, after all attributes are
# initialized. The list is created and filled in later, after all
# the methods are actually defined. (I just put it here because I
# like to define and document all class attributes in the same
# place.) Subclasses that add another _check_*() method should
# define their own CHECK_METHODS list that adds their check method
# to those from this class.
CHECK_METHODS = None
# -- Constructor/initialization methods ----------------------------
def __init__ (self, *opts, **attrs):
# Set _short_opts, _long_opts attrs from 'opts' tuple.
# Have to be set now, in case no option strings are supplied.
self._short_opts = []
self._long_opts = []
opts = self._check_opt_strings(opts)
self._set_opt_strings(opts)
# Set all other attrs (action, type, etc.) from 'attrs' dict
self._set_attrs(attrs)
# Check all the attributes we just set. There are lots of
# complicated interdependencies, but luckily they can be farmed
# out to the _check_*() methods listed in CHECK_METHODS -- which
# could be handy for subclasses! The one thing these all share
# is that they raise OptionError if they discover a problem.
for checker in self.CHECK_METHODS:
checker(self)
def _check_opt_strings (self, opts):
# Filter out None because early versions of Optik had exactly
# one short option and one long option, either of which
# could be None.
opts = filter(None, opts)
if not opts:
raise TypeError("at least one option string must be supplied")
return opts
def _set_opt_strings (self, opts):
for opt in opts:
if len(opt) < 2:
raise OptionError(
"invalid option string %r: "
"must be at least two characters long" % opt, self)
elif len(opt) == 2:
if not (opt[0] == "-" and opt[1] != "-"):
raise OptionError(
"invalid short option string %r: "
"must be of the form -x, (x any non-dash char)" % opt,
self)
self._short_opts.append(opt)
else:
if not (opt[0:2] == "--" and opt[2] != "-"):
raise OptionError(
"invalid long option string %r: "
"must start with --, followed by non-dash" % opt,
self)
self._long_opts.append(opt)
def _set_attrs (self, attrs):
for attr in self.ATTRS:
if attrs.has_key(attr):
setattr(self, attr, attrs[attr])
del attrs[attr]
else:
if attr == 'default':
setattr(self, attr, NO_DEFAULT)
else:
setattr(self, attr, None)
if attrs:
raise OptionError(
"invalid keyword arguments: %s" % ", ".join(attrs.keys()),
self)
# -- Constructor validation methods --------------------------------
def _check_action (self):
if self.action is None:
self.action = "store"
elif self.action not in self.ACTIONS:
raise OptionError("invalid action: %r" % self.action, self)
def _check_type (self):
if self.type is None:
# XXX should factor out another class attr here: list of
# actions that *require* a type
if self.action in ("store", "append"):
if self.choices is not None:
# The "choices" attribute implies "choice" type.
self.type = "choice"
else:
# No type given? "string" is the most sensible default.
self.type = "string"
else:
if self.type not in self.TYPES and not OptionTypes.valid_type(self):
raise OptionError("invalid option type: %r" % self.type, self)
if self.action not in self.TYPED_ACTIONS:
raise OptionError(
"must not supply a type for action %r" % self.action, self)
def _check_choice(self):
if self.type == "choice":
if self.choices is None:
raise OptionError(
"must supply a list of choices for type 'choice'", self)
elif type(self.choices) not in (types.TupleType, types.ListType):
raise OptionError(
"choices must be a list of strings ('%s' supplied)"
% str(type(self.choices)).split("'")[1], self)
elif self.choices is not None:
raise OptionError(
"must not supply choices for type %r" % self.type, self)
def _check_dest (self):
if self.action in self.STORE_ACTIONS and self.dest is None:
# No destination given, and we need one for this action.
# Glean a destination from the first long option string,
# or from the first short option string if no long options.
if self._long_opts:
# eg. "--foo-bar" -> "foo_bar"
self.dest = self._long_opts[0][2:].replace('-', '_')
else:
self.dest = self._short_opts[0][1]
def _check_const (self):
if self.action != "store_const" and self.const is not None:
raise OptionError(
"'const' must not be supplied for action %r" % self.action,
self)
def _check_nargs (self):
if self.action in self.TYPED_ACTIONS:
if self.nargs is None:
self.nargs = 1
elif self.nargs is not None:
raise OptionError(
"'nargs' must not be supplied for action %r" % self.action,
self)
def _check_callback (self):
if self.action == "callback":
if not callable(self.callback):
raise OptionError(
"callback not callable: %r" % self.callback, self)
if (self.callback_args is not None and
type(self.callback_args) is not types.TupleType):
raise OptionError(
"callback_args, if supplied, must be a tuple: not %r"
% self.callback_args, self)
if (self.callback_kwargs is not None and
type(self.callback_kwargs) is not types.DictType):
raise OptionError(
"callback_kwargs, if supplied, must be a dict: not %r"
% self.callback_kwargs, self)
else:
if self.callback is not None:
raise OptionError(
"callback supplied (%r) for non-callback option"
% self.callback, self)
if self.callback_args is not None:
raise OptionError(
"callback_args supplied for non-callback option", self)
if self.callback_kwargs is not None:
raise OptionError(
"callback_kwargs supplied for non-callback option", self)
CHECK_METHODS = [_check_action,
_check_type,
_check_choice,
_check_dest,
_check_const,
_check_nargs,
_check_callback]
# -- Miscellaneous methods -----------------------------------------
def __str__ (self):
return "/".join(self._short_opts + self._long_opts)
def takes_value (self):
return self.type is not None
# -- Processing methods --------------------------------------------
def check_value (self, opt, value):
checker = self.TYPE_CHECKER.get(self.type)
if checker is None:
return value
else:
return checker(self, opt, value)
def process (self, opt, value, values, parser):
# First, convert the value(s) to the right type. Howl if any
# value(s) are bogus.
if value is not None:
if self.nargs == 1:
value = self.check_value(opt, value)
else:
value = tuple([self.check_value(opt, v) for v in value])
# And then take whatever action is expected of us.
# This is a separate method to make life easier for
# subclasses to add new actions.
return self.take_action(
self.action, self.dest, opt, value, values, parser)
def take_action (self, action, dest, opt, value, values, parser):
if action == "store":
setattr(values, dest, value)
elif action == "store_const":
setattr(values, dest, self.const)
elif action == "store_true":
setattr(values, dest, True)
elif action == "store_false":
setattr(values, dest, False)
elif action == "append":
values.ensure_value(dest, []).append(value)
elif action == "count":
setattr(values, dest, values.ensure_value(dest, 0) + 1)
elif action == "callback":
args = self.callback_args or ()
kwargs = self.callback_kwargs or {}
self.callback(self, opt, value, parser, *args, **kwargs)
elif action == "help":
parser.print_help()
sys.exit(0)
elif action == "version":
parser.print_version()
sys.exit(0)
else:
raise RuntimeError, "unknown action %r" % self.action
return 1
# class Option
class ParameterisedOption(Option):
"""I provide a option that has it's argument type(s) parameterised by a a grammar element"""
def __init__(self, *args, **kwargs):
"""you Must provide a keyword argument of 'argument' containing the grammar for the argument"""
self.argument=kwargs['argument']
del kwargs['argument']
# we are 'untyped'. The optik code will probably need to be fixed to not check types ...
Option.__init__(self, *args, **kwargs)
def check_value (self, opt, value):
"""check_value as a template method is likely broken - what about repeating value etc.
TODO: find the right method to override and then remove the [] & popping..
"""
try:
return self.argument.parse([value]).pop()
except ArgumentValueError:
raise OptionValueError("option %s: invalid %s value: %r" % (opt, self.argument.rule(), value))
class ComplexOption(ParameterisedOption):
"""I process complex options"""
def __init__(self, *args, **kwargs):
kwargs['type']='complex'
kwargs['argument']=ComplexArgument()
ParameterisedOption.__init__(self,*args,**kwargs)
OptionTypes.add_type('complex',ComplexOption, True)
class FloatOption(ParameterisedOption):
"""I process float options"""
def __init__(self, *args, **kwargs):
kwargs['type']='float'
kwargs['argument']=FloatArgument()
ParameterisedOption.__init__(self,*args,**kwargs)
OptionTypes.add_type('float',FloatOption, True)
class IntOption(ParameterisedOption):
"""I process int options"""
def __init__(self, *args, **kwargs):
kwargs['type']='int'
kwargs['argument']=IntArgument()
ParameterisedOption.__init__(self,*args,**kwargs)
OptionTypes.add_type('int',IntOption, True)
class LongOption(ParameterisedOption):
"""I process long integer options"""
def __init__(self, *args, **kwargs):
kwargs['type']='long'
kwargs['argument']=LongArgument()
ParameterisedOption.__init__(self,*args,**kwargs)
OptionTypes.add_type('long',LongOption, True)
class StringOption(ParameterisedOption):
"""I process string options"""
def __init__(self, *args, **kwargs):
kwargs['type']='string'
kwargs['argument']=StringArgument()
ParameterisedOption.__init__(self,*args,**kwargs)
OptionTypes.add_type('string',StringOption, True)
SUPPRESS_HELP = "SUPPRESS"+"HELP"
SUPPRESS_USAGE = "SUPPRESS"+"USAGE"
class Values:
def __init__ (self, defaults=None):
if defaults:
for (attr, val) in defaults.items():
setattr(self, attr, val)
def __repr__ (self):
return ("<%s at 0x%x: %r>"
% (self.__class__.__name__, id(self), self.__dict__))
def _update_careful (self, dict):
"""
Update the option values from an arbitrary dictionary, but only
use keys from dict that already have a corresponding attribute
in self. Any keys in dict without a corresponding attribute
are silently ignored.
"""
for attr in dir(self):
if dict.has_key(attr):
dval = dict[attr]
if dval is not None:
setattr(self, attr, dval)
def _update_loose (self, dict):
"""
Update the option values from an arbitrary dictionary,
using all keys from the dictionary regardless of whether
they have a corresponding attribute in self or not.
"""
self.__dict__.update(dict)
def _update (self, dict, mode):
if mode == "careful":
self._update_careful(dict)
elif mode == "loose":
self._update_loose(dict)
else:
raise ValueError, "invalid update mode: %r" % mode
def read_module (self, modname, mode="careful"):
__import__(modname)
mod = sys.modules[modname]
self._update(vars(mod), mode)
def read_file (self, filename, mode="careful"):
vars = {}
execfile(filename, vars)
self._update(vars, mode)
def ensure_value (self, attr, value):
if not hasattr(self, attr) or getattr(self, attr) is None:
setattr(self, attr, value)
return getattr(self, attr)
class OptionContainer:
"""
Abstract base class.
Class attributes:
standard_option_list : [Option]
list of standard options that will be accepted by all instances
of this parser class (intended to be overridden by subclasses).
Instance attributes:
option_list : [Option]
the list of Option objects contained by this OptionContainer
_short_opt : { string : Option }
dictionary mapping short option strings, eg. "-f" or "-X",
to the Option instances that implement them. If an Option
has multiple short option strings, it will appears in this
dictionary multiple times. [1]
_long_opt : { string : Option }
dictionary mapping long option strings, eg. "--file" or
"--exclude", to the Option instances that implement them.
Again, a given Option can occur multiple times in this
dictionary. [1]
defaults : { string : any }
dictionary mapping option destination names to default
values for each destination [1]
[1] These mappings are common to (shared by) all components of the
controlling OptionParser, where they are initially created.
"""
def __init__ (self, option_class, conflict_handler, description):
# Initialize the option list and related data structures.
# This method must be provided by subclasses, and it must
# initialize at least the following instance attributes:
# option_list, _short_opt, _long_opt, defaults.
self._create_option_list()
self.option_class = option_class
self.set_conflict_handler(conflict_handler)
self.set_description(description)
def _create_option_mappings (self):
# For use by OptionParser constructor -- create the master
# option mappings used by this OptionParser and all
# OptionGroups that it owns.
self._short_opt = {} # single letter -> Option instance
self._long_opt = {} # long option -> Option instance
self.defaults = {} # maps option dest -> default value
def _share_option_mappings (self, parser):
# For use by OptionGroup constructor -- use shared option
# mappings from the OptionParser that owns this OptionGroup.
self._short_opt = parser._short_opt
self._long_opt = parser._long_opt
self.defaults = parser.defaults
def set_conflict_handler (self, handler):
if handler not in ("ignore", "error", "resolve"):
raise ValueError, "invalid conflict_resolution value %r" % handler
self.conflict_handler = handler
def set_description (self, description):
self.description = description
# -- Option-adding methods -----------------------------------------
def _check_conflict (self, option):
conflict_opts = []
for opt in option._short_opts:
if self._short_opt.has_key(opt):
conflict_opts.append((opt, self._short_opt[opt]))
for opt in option._long_opts:
if self._long_opt.has_key(opt):
conflict_opts.append((opt, self._long_opt[opt]))
if conflict_opts:
handler = self.conflict_handler
if handler == "ignore": # behaviour for Optik 1.0, 1.1
pass
elif handler == "error": # new in 1.2
raise OptionConflictError(
"conflicting option string(s): %s"
% ", ".join([co[0] for co in conflict_opts]),
option)
elif handler == "resolve": # new in 1.2
for (opt, c_option) in conflict_opts:
if opt.startswith("--"):
c_option._long_opts.remove(opt)
del self._long_opt[opt]
else:
c_option._short_opts.remove(opt)
del self._short_opt[opt]
if not (c_option._short_opts or c_option._long_opts):
c_option.container.option_list.remove(c_option)
def add_option (self, *args, **kwargs):
"""add_option(Option)
add_option(opt_str, ..., kwarg=val, ...)
"""
if type(args[0]) is types.StringType:
option = OptionTypes.factory(self.option_class, *args, **kwargs)
elif len(args) == 1 and not kwargs:
option = args[0]
if not isinstance(option, Option):
raise TypeError, "not an Option instance: %r" % option
else:
raise TypeError, "invalid arguments"
self._check_conflict(option)
self.option_list.append(option)
option.container = self
for opt in option._short_opts:
self._short_opt[opt] = option
for opt in option._long_opts:
self._long_opt[opt] = option
if option.dest is not None: # option has a dest, we need a default
if option.default is not NO_DEFAULT:
self.defaults[option.dest] = option.default
elif not self.defaults.has_key(option.dest):
self.defaults[option.dest] = None
return option
def add_options (self, option_list):
for option in option_list:
self.add_option(option)
# -- Argument foo --------------------------------------------------
def set_arguments(self, arguments):
self.arguments=arguments
# -- Option query/removal methods ----------------------------------
def get_option (self, opt_str):
return (self._short_opt.get(opt_str) or
self._long_opt.get(opt_str))
def has_option (self, opt_str):
return (self._short_opt.has_key(opt_str) or
self._long_opt.has_key(opt_str))
def remove_option (self, opt_str):
option = self._short_opt.get(opt_str)
if option is None:
option = self._long_opt.get(opt_str)
if option is None:
raise ValueError("no such option %r" % opt_str)
for opt in option._short_opts:
del self._short_opt[opt]
for opt in option._long_opts:
del self._long_opt[opt]
option.container.option_list.remove(option)
# -- Help-formatting methods ---------------------------------------
def format_option_help (self, formatter):
if not self.option_list:
return ""
result = []
for option in self.option_list:
if not option.help is SUPPRESS_HELP:
result.append(formatter.format_option(option))
return "".join(result)
def format_description (self, formatter):
if self.description:
return formatter.format_description(self.description)
else:
return ""
def format_help (self, formatter):
result = []
if self.description:
result.append(self.format_description(formatter))
if self.option_list:
result.append(self.format_option_help(formatter))
return "\n".join(result)
class OptionGroup (OptionContainer):
def __init__ (self, parser, title, description=None):
self.parser = parser
OptionContainer.__init__(
self, parser.option_class, parser.conflict_handler, description)
self.title = title
def _create_option_list (self):
self.option_list = []
self._share_option_mappings(self.parser)
def set_title (self, title):
self.title = title
# -- Help-formatting methods ---------------------------------------
def format_help (self, formatter):
result = formatter.format_heading(self.title)
formatter.indent()
result += OptionContainer.format_help(self, formatter)
formatter.dedent()
return result
class OptionParser (OptionContainer):
"""
Class attributes:
standard_option_list : [Option]
list of standard options that will be accepted by all instances
of this parser class (intended to be overridden by subclasses).
Instance attributes:
usage : string
a usage string for your program. Before it is displayed
to the user, "%prog" will be expanded to the name of
your program (self.prog or os.path.basename(sys.argv[0])).
prog : string
the name of the current program (to override
os.path.basename(sys.argv[0])).
allow_interspersed_args : boolean = true
if true, positional arguments may be interspersed with options.
Assuming -a and -b each take a single argument, the command-line
-ablah foo bar -bboo baz
will be interpreted the same as
-ablah -bboo -- foo bar baz
If this flag were false, that command line would be interpreted as
-ablah -- foo bar -bboo baz
-- ie. we stop processing options as soon as we see the first
non-option argument. (This is the tradition followed by
Python's getopt module, Perl's Getopt::Std, and other argument-
parsing libraries, but it is generally annoying to users.)
rargs : [string]
the argument list currently being parsed. Only set when
parse_args() is active, and continually trimmed down as
we consume arguments. Mainly there for the benefit of
callback options.
largs : [string]
the list of leftover arguments that we have skipped while
parsing options. If allow_interspersed_args is false, this
list is always empty.
values : Values
the set of option values currently being accumulated. Only
set when parse_args() is active. Also mainly for callbacks.
Because of the 'rargs', 'largs', and 'values' attributes,
OptionParser is not thread-safe. If, for some perverse reason, you
need to parse command-line arguments simultaneously in different
threads, use different OptionParser instances.
"""
standard_option_list = []
def __init__ (self,
usage=None,
option_list=None,
option_class=Option,
version=None,
conflict_handler="error",
description=None,
formatter=None,
add_help_option=1,
prog=None,
arguments=None):
OptionContainer.__init__(
self, option_class, conflict_handler, description)
self.set_usage(usage)
self.prog = prog
self.version = version
self.allow_interspersed_args = 1
if formatter is None:
formatter = IndentedHelpFormatter()
self.formatter = formatter
# Populate the option list; initial sources are the
# standard_option_list class attribute, the 'option_list'
# argument, and (if applicable) the _add_version_option() and
# _add_help_option() methods.
self._populate_option_list(option_list,
add_help=add_help_option)
self.arguments=arguments
if not self.arguments:
self.arguments=Star(StringArgument())
self._init_parsing_state()
# -- Private methods -----------------------------------------------
# (used by our or OptionContainer's constructor)
def _create_option_list (self):
self.option_list = []
self.option_groups = []
self._create_option_mappings()
def _add_help_option (self):
self.add_option("-h", "--help",
action="help",
help="show this help message and exit")
def _add_version_option (self):
self.add_option("--version",
action="version",
help="show program's version number and exit")
def _populate_option_list (self, option_list, add_help=1):
if self.standard_option_list:
self.add_options(self.standard_option_list)
if option_list:
self.add_options(option_list)
if self.version:
self._add_version_option()
if add_help:
self._add_help_option()
def _init_parsing_state (self):
# These are set in parse_args() for the convenience of callbacks.
self.rargs = None
self.largs = None
self.values = None
# -- Simple modifier methods ---------------------------------------
def set_usage (self, usage):
if usage is None:
self.usage = "%prog [options]"
elif usage is SUPPRESS_USAGE:
self.usage = None
elif usage.startswith("usage: "):
# for backwards compatibility with Optik 1.3 and earlier
self.usage = usage[7:]
else:
self.usage = usage
def enable_interspersed_args (self):
self.allow_interspersed_args = 1
def disable_interspersed_args (self):
self.allow_interspersed_args = 0
def set_default (self, dest, value):
self.defaults[dest] = value
def set_defaults (self, **kwargs):
self.defaults.update(kwargs)
def get_default_values (self):
return Values(self.defaults)
# -- OptionGroup methods -------------------------------------------
def add_option_group (self, *args, **kwargs):
# XXX lots of overlap with OptionContainer.add_option()
if type(args[0]) is types.StringType:
group = OptionGroup(self, *args, **kwargs)
elif len(args) == 1 and not kwargs:
group = args[0]
if not isinstance(group, OptionGroup):
raise TypeError, "not an OptionGroup instance: %r" % group
if group.parser is not self:
raise ValueError, "invalid OptionGroup (wrong parser)"
else:
raise TypeError, "invalid arguments"
self.option_groups.append(group)
return group
def get_option_group (self, opt_str):
option = (self._short_opt.get(opt_str) or
self._long_opt.get(opt_str))
if option and option.container is not self:
return option.container
return None
# -- Option-parsing methods ----------------------------------------
def _get_args (self, args):
if args is None:
return sys.argv[1:]
else:
return args[:] # don't modify caller's list
def parse_args (self, args=None, values=None):
"""
parse_args(args : [string] = sys.argv[1:],
values : Values = None)
-> (values : Values, args : [string])
Parse the command-line options found in 'args' (default:
sys.argv[1:]). Any errors result in a call to 'error()', which
by default prints the usage message to stderr and calls
sys.exit() with an error message. On success returns a pair
(values, args) where 'values' is an Values instance (with all
your option values) and 'args' is the list of arguments left
over after parsing options.
"""
rargs = self._get_args(args)
if values is None:
values = self.get_default_values()
# Store the halves of the argument list as attributes for the
# convenience of callbacks:
# rargs
# the rest of the command-line (the "r" stands for
# "remaining" or "right-hand")
# largs
# the leftover arguments -- ie. what's left after removing
# options and their arguments (the "l" stands for "leftover"
# or "left-hand")
self.rargs = rargs
self.largs = largs = []
self.values = values
try:
stop = self._process_args(largs, rargs, values)
except (BadOptionError, OptionValueError), err:
self.error(err.msg)
args = largs + rargs
return self.check_values(values, self.arguments.parse(args))
def check_values (self, values, args):
"""
check_values(values : Values, args : [string])
-> (values : Values, args : [string])
Check that the supplied option values and leftover arguments are
valid. Returns the option values and leftover arguments
(possibly adjusted, possibly completely new -- whatever you
like). Default implementation just returns the passed-in
values; subclasses may override as desired.
"""
return (values, args)
def _process_args (self, largs, rargs, values):
"""_process_args(largs : [string],
rargs : [string],
values : Values)
Process command-line arguments and populate 'values', consuming
options and arguments from 'rargs'. If 'allow_interspersed_args' is
false, stop at the first non-option argument. If true, accumulate any
interspersed non-option arguments in 'largs'.
"""
while rargs:
arg = rargs[0]
# We handle bare "--" explicitly, and bare "-" is handled by the
# standard arg handler since the short arg case ensures that the
# len of the opt string is greater than 1.
if arg == "--":
del rargs[0]
return
elif arg[0:2] == "--":
# process a single long option (possibly with value(s))
self._process_long_opt(rargs, values)
elif arg[:1] == "-" and len(arg) > 1:
# process a cluster of short options (possibly with
# value(s) for the last one only)
self._process_short_opts(rargs, values)
elif self.allow_interspersed_args:
largs.append(arg)
del rargs[0]
else:
return # stop now, leave this arg in rargs
# Say this is the original argument list:
# [arg0, arg1, ..., arg(i-1), arg(i), arg(i+1), ..., arg(N-1)]
# ^
# (we are about to process arg(i)).
#
# Then rargs is [arg(i), ..., arg(N-1)] and largs is a *subset* of
# [arg0, ..., arg(i-1)] (any options and their arguments will have
# been removed from largs).
#
# The while loop will usually consume 1 or more arguments per pass.
# If it consumes 1 (eg. arg is an option that takes no arguments),
# then after _process_arg() is done the situation is:
#
# largs = subset of [arg0, ..., arg(i)]
# rargs = [arg(i+1), ..., arg(N-1)]
#
# If allow_interspersed_args is false, largs will always be
# *empty* -- still a subset of [arg0, ..., arg(i-1)], but
# not a very interesting subset!
def _match_long_opt (self, opt):
"""_match_long_opt(opt : string) -> string
Determine which long option string 'opt' matches, ie. which one
it is an unambiguous abbrevation for. Raises BadOptionError if
'opt' doesn't unambiguously match any long option string.
"""
return _match_abbrev(opt, self._long_opt)
def _process_long_opt (self, rargs, values):
arg = rargs.pop(0)
# Value explicitly attached to arg? Pretend it's the next
# argument.
if "=" in arg:
(opt, next_arg) = arg.split("=", 1)
rargs.insert(0, next_arg)
had_explicit_value = 1
else:
opt = arg
had_explicit_value = 0
opt = self._match_long_opt(opt)
option = self._long_opt[opt]
if option.takes_value():
nargs = option.nargs
if len(rargs) < nargs:
if nargs == 1:
self.error("%s option requires a value" % opt)
else:
self.error("%s option requires %d values"
% (opt, nargs))
elif nargs == 1:
value = rargs.pop(0)
else:
value = tuple(rargs[0:nargs])
del rargs[0:nargs]
elif had_explicit_value:
self.error("%s option does not take a value" % opt)
else:
value = None
option.process(opt, value, values, self)
def _process_short_opts (self, rargs, values):
arg = rargs.pop(0)
stop = 0
i = 1
for ch in arg[1:]:
opt = "-" + ch
option = self._short_opt.get(opt)
i += 1 # we have consumed a character
if not option:
self.error("no such option: %s" % opt)
if option.takes_value():
# Any characters left in arg? Pretend they're the
# next arg, and stop consuming characters of arg.
if i < len(arg):
rargs.insert(0, arg[i:])
stop = 1
nargs = option.nargs
if len(rargs) < nargs:
if nargs == 1:
self.error("%s option requires a value" % opt)
else:
self.error("%s option requires %s values"
% (opt, nargs))
elif nargs == 1:
value = rargs.pop(0)
else:
value = tuple(rargs[0:nargs])
del rargs[0:nargs]
else: # option doesn't take a value
value = None
option.process(opt, value, values, self)
if stop:
break
# -- Feedback methods ----------------------------------------------
def get_prog_name (self):
if self.prog is None:
return os.path.basename(sys.argv[0])
else:
return self.prog
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.
"""
self.print_usage(sys.stderr)
sys.stderr.write("%s: error: %s\n" % (self.get_prog_name(), msg))
sys.exit(2) # command-line usage error
def get_usage (self):
if self.usage:
return self.formatter.format_usage(
self.usage.replace("%prog", self.get_prog_name()))
else:
return ""
def print_usage (self, file=None):
"""print_usage(file : file = stdout)
Print the usage message for the current program (self.usage) to
'file' (default stdout). Any occurence of the string "%prog" in
self.usage is replaced with the name of the current program
(basename of sys.argv[0]). Does nothing if self.usage is empty
or not defined.
"""
if self.usage:
print >>file, self.get_usage()
def get_version (self):
if self.version:
return self.version.replace("%prog", self.get_prog_name())
else:
return ""
def print_version (self, file=None):
"""print_version(file : file = stdout)
Print the version message for this program (self.version) to
'file' (default stdout). As with print_usage(), any occurence
of "%prog" in self.version is replaced by the current program's
name. Does nothing if self.version is empty or undefined.
"""
if self.version:
print >>file, self.get_version()
def format_option_help (self, formatter=None):
if formatter is None:
formatter = self.formatter
formatter.store_option_strings(self)
result = []
result.append(formatter.format_heading("options"))
formatter.indent()
if self.option_list:
result.append(OptionContainer.format_option_help(self, formatter))
result.append("\n")
for group in self.option_groups:
result.append(group.format_help(formatter))
result.append("\n")
formatter.dedent()
# Drop the last "\n", or the header if no options or option groups:
return "".join(result[:-1])
def format_help (self, formatter=None):
if formatter is None:
formatter = self.formatter
result = []
if self.usage:
result.append(self.get_usage() + "\n")
if self.description:
result.append(self.format_description(formatter) + "\n")
result.append(self.format_option_help(formatter))
return "".join(result)
def print_help (self, file=None):
"""print_help(file : file = stdout)
Print an extended help message, listing all options and any
help text provided with them, to 'file' (default stdout).
"""
if file is None:
file = sys.stdout
file.write(self.format_help())
# class OptionParser
def _match_abbrev (s, wordmap):
"""_match_abbrev(s : string, wordmap : {string : Option}) -> string
Return the string key in 'wordmap' for which 's' is an unambiguous
abbreviation. If 's' is found to be ambiguous or doesn't match any of
'words', raise BadOptionError.
"""
# Is there an exact match?
if wordmap.has_key(s):
return s
else:
# Isolate all words with s as a prefix.
possibilities = [word for word in wordmap.keys()
if word.startswith(s)]
# No exact match, so there had better be just one possibility.
if len(possibilities) == 1:
return possibilities[0]
elif not possibilities:
raise BadOptionError("no such option: %s" % s)
else:
# More than one possible completion: ambiguous prefix.
raise BadOptionError("ambiguous option: %s (%s?)"
% (s, ", ".join(possibilities)))
# Some day, there might be many Option classes. As of Optik 1.3, the
# preferred way to instantiate Options is indirectly, via make_option(),
# which will become a factory function when there are many Option
# classes.
make_option = Option
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