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DPyGetOpt.py
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# -*- coding: utf-8 -*-
"""DPyGetOpt -- Demiurge Python GetOptions Module
$Id: DPyGetOpt.py 958 2005-12-27 23:17:51Z fperez $
This module is modeled after perl's Getopt::Long module-- which
is, in turn, modeled after GNU's extended getopt() function.
Upon instantiation, the option specification should be a sequence
(list) of option definitions.
Options that take no arguments should simply contain the name of
the option. If a ! is post-pended, the option can be negated by
prepending 'no'; ie 'debug!' specifies that -debug and -nodebug
should be accepted.
Mandatory arguments to options are specified using a postpended
'=' + a type specifier. '=s' specifies a mandatory string
argument, '=i' specifies a mandatory integer argument, and '=f'
specifies a mandatory real number. In all cases, the '=' can be
substituted with ':' to specify that the argument is optional.
Dashes '-' in option names are allowed.
If an option has the character '@' postpended (after the
argumentation specification), it can appear multiple times within
each argument list that is processed. The results will be stored
in a list.
The option name can actually be a list of names separated by '|'
characters; ie-- 'foo|bar|baz=f@' specifies that all -foo, -bar,
and -baz options that appear on within the parsed argument list
must have a real number argument and that the accumulated list
of values will be available under the name 'foo'
$Id: DPyGetOpt.py 958 2005-12-27 23:17:51Z fperez $"""
#*****************************************************************************
#
# Copyright (c) 2001 Bill Bumgarner <bbum@friday.com>
#
#
# Published under the terms of the MIT license, hereby reproduced:
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to
# deal in the Software without restriction, including without limitation the
# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
# sell copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
#
#*****************************************************************************
__author__ = 'Bill Bumgarner <bbum@friday.com>'
__license__ = 'MIT'
__version__ = '1.2'
# Modified to use re instead of regex and regsub modules.
# 2001/5/7, Jonathan Hogg <jonathan@onegoodidea.com>
import re
import string
import sys
import types
arg_error = 'DPyGetOpt Argument Error'
spec_error = 'DPyGetOpt Specification Error'
term_error = 'DPyGetOpt Termination Error'
specificationExpr = re.compile('(?P<required>.)(?P<type>.)(?P<multi>@?)')
ArgRequired = 'Requires an Argument'
ArgOptional = 'Argument Optional'
# The types modules is not used for these identifiers because there
# is no identifier for 'boolean' or 'generic'
StringArgType = 'String Argument Type'
IntegerArgType = 'Integer Argument Type'
RealArgType = 'Real Argument Type'
BooleanArgType = 'Boolean Argument Type'
GenericArgType = 'Generic Argument Type'
# dictionary of conversion functions-- boolean and generic options
# do not accept arguments and do not need conversion functions;
# the identity function is used purely for convenience.
ConversionFunctions = {
StringArgType : lambda x: x,
IntegerArgType : string.atoi,
RealArgType : string.atof,
BooleanArgType : lambda x: x,
GenericArgType : lambda x: x,
}
class DPyGetOpt:
def __init__(self, spec = None, terminators = ['--']):
"""
Declare and intialize instance variables
Yes, declaration is not necessary... but one of the things
I sorely miss from C/Obj-C is the concept of having an
interface definition that clearly declares all instance
variables and methods without providing any implementation
details. it is a useful reference!
all instance variables are initialized to 0/Null/None of
the appropriate type-- not even the default value...
"""
# sys.stderr.write(string.join(spec) + "\n")
self.allowAbbreviations = 1 # boolean, 1 if abbreviations will
# be expanded
self.freeValues = [] # list, contains free values
self.ignoreCase = 0 # boolean, YES if ignoring case
self.needsParse = 0 # boolean, YES if need to reparse parameter spec
self.optionNames = {} # dict, all option names-- value is index of tuple
self.optionStartExpr = None # regexp defining the start of an option (ie; '-', '--')
self.optionTuples = [] # list o' tuples containing defn of options AND aliases
self.optionValues = {} # dict, option names (after alias expansion) -> option value(s)
self.orderMixed = 0 # boolean, YES if options can be mixed with args
self.posixCompliance = 0 # boolean, YES indicates posix like behaviour
self.spec = [] # list, raw specs (in case it must be reparsed)
self.terminators = terminators # list, strings that terminate argument processing
self.termValues = [] # list, values after terminator
self.terminator = None # full name of terminator that ended
# option processing
# set up defaults
self.setPosixCompliance()
self.setIgnoreCase()
self.setAllowAbbreviations()
# parse spec-- if present
if spec:
self.parseConfiguration(spec)
def setPosixCompliance(self, aFlag = 0):
"""
Enables and disables posix compliance.
When enabled, '+' can be used as an option prefix and free
values can be mixed with options.
"""
self.posixCompliance = aFlag
self.needsParse = 1
if self.posixCompliance:
self.optionStartExpr = re.compile('(--|-)(?P<option>[A-Za-z0-9_-]+)(?P<arg>=.*)?')
self.orderMixed = 0
else:
self.optionStartExpr = re.compile('(--|-|\+)(?P<option>[A-Za-z0-9_-]+)(?P<arg>=.*)?')
self.orderMixed = 1
def isPosixCompliant(self):
"""
Returns the value of the posix compliance flag.
"""
return self.posixCompliance
def setIgnoreCase(self, aFlag = 1):
"""
Enables and disables ignoring case during option processing.
"""
self.needsParse = 1
self.ignoreCase = aFlag
def ignoreCase(self):
"""
Returns 1 if the option processor will ignore case when
processing options.
"""
return self.ignoreCase
def setAllowAbbreviations(self, aFlag = 1):
"""
Enables and disables the expansion of abbreviations during
option processing.
"""
self.allowAbbreviations = aFlag
def willAllowAbbreviations(self):
"""
Returns 1 if abbreviated options will be automatically
expanded to the non-abbreviated form (instead of causing an
unrecognized option error).
"""
return self.allowAbbreviations
def addTerminator(self, newTerm):
"""
Adds newTerm as terminator of option processing.
Whenever the option processor encounters one of the terminators
during option processing, the processing of options terminates
immediately, all remaining options are stored in the termValues
instance variable and the full name of the terminator is stored
in the terminator instance variable.
"""
self.terminators = self.terminators + [newTerm]
def _addOption(self, oTuple):
"""
Adds the option described by oTuple (name, (type, mode,
default), alias) to optionTuples. Adds index keyed under name
to optionNames. Raises spec_error if name already in
optionNames
"""
(name, (type, mode, default, multi), realName) = oTuple
# verify name and add to option names dictionary
if self.optionNames.has_key(name):
if realName:
raise spec_error, 'Alias \'' + name + '\' for \'' + realName + \
'\' already used for another option or alias.'
else:
raise spec_error, 'Option named \'' + name + \
'\' specified more than once. Specification: ' + option
# validated. add to optionNames
self.optionNames[name] = self.tupleIndex
self.tupleIndex = self.tupleIndex + 1
# add to optionTuples
self.optionTuples = self.optionTuples + [oTuple]
# if type is boolean, add negation
if type == BooleanArgType:
alias = 'no' + name
specTuple = (type, mode, 0, multi)
oTuple = (alias, specTuple, name)
# verify name and add to option names dictionary
if self.optionNames.has_key(alias):
if realName:
raise spec_error, 'Negated alias \'' + name + '\' for \'' + realName + \
'\' already used for another option or alias.'
else:
raise spec_error, 'Negated option named \'' + name + \
'\' specified more than once. Specification: ' + option
# validated. add to optionNames
self.optionNames[alias] = self.tupleIndex
self.tupleIndex = self.tupleIndex + 1
# add to optionTuples
self.optionTuples = self.optionTuples + [oTuple]
def addOptionConfigurationTuple(self, oTuple):
(name, argSpec, realName) = oTuple
if self.ignoreCase:
name = string.lower(name)
if realName:
realName = string.lower(realName)
else:
realName = name
oTuple = (name, argSpec, realName)
# add option
self._addOption(oTuple)
def addOptionConfigurationTuples(self, oTuple):
if type(oTuple) is ListType:
for t in oTuple:
self.addOptionConfigurationTuple(t)
else:
self.addOptionConfigurationTuple(oTuple)
def parseConfiguration(self, spec):
# destroy previous stored information + store raw spec
self.spec = spec
self.optionTuples = []
self.optionNames = {}
self.tupleIndex = 0
tupleIndex = 0
# create some regex's for parsing each spec
splitExpr = \
re.compile('(?P<names>\w+[-A-Za-z0-9|]*)?(?P<spec>!|[=:][infs]@?)?')
for option in spec:
# push to lower case (does not negatively affect
# specification)
if self.ignoreCase:
option = string.lower(option)
# break into names, specification
match = splitExpr.match(option)
if match is None:
raise spec_error, 'Invalid specification {' + option + '}'
names = match.group('names')
specification = match.group('spec')
# break name into name, aliases
nlist = string.split(names, '|')
# get name
name = nlist[0]
aliases = nlist[1:]
# specificationExpr = regex.symcomp('\(<required>.\)\(<type>.\)\(<multi>@?\)')
if not specification:
#spec tuple is ('type', 'arg mode', 'default value', 'multiple')
argType = GenericArgType
argMode = None
argDefault = 1
argMultiple = 0
elif specification == '!':
argType = BooleanArgType
argMode = None
argDefault = 1
argMultiple = 0
else:
# parse
match = specificationExpr.match(specification)
if match is None:
# failed to parse, die
raise spec_error, 'Invalid configuration for option \'' + option + '\''
# determine mode
required = match.group('required')
if required == '=':
argMode = ArgRequired
elif required == ':':
argMode = ArgOptional
else:
raise spec_error, 'Unknown requirement configuration \'' + required + '\''
# determine type
type = match.group('type')
if type == 's':
argType = StringArgType
argDefault = ''
elif type == 'i':
argType = IntegerArgType
argDefault = 1
elif type == 'f' or type == 'n':
argType = RealArgType
argDefault = 1
else:
raise spec_error, 'Unknown type specifier \'' + type + '\''
# determine quantity
if match.group('multi') == '@':
argMultiple = 1
else:
argMultiple = 0
## end else (of not specification)
# construct specification tuple
specTuple = (argType, argMode, argDefault, argMultiple)
# add the option-- option tuple is (name, specTuple, real name)
oTuple = (name, specTuple, name)
self._addOption(oTuple)
for alias in aliases:
# drop to all lower (if configured to do so)
if self.ignoreCase:
alias = string.lower(alias)
# create configuration tuple
oTuple = (alias, specTuple, name)
# add
self._addOption(oTuple)
# successfully parsed....
self.needsParse = 0
def _getArgTuple(self, argName):
"""
Returns a list containing all the specification tuples that
match argName. If none match, None is returned. If one
matches, a list with one tuple is returned. If more than one
match, a list containing all the tuples that matched is
returned.
In other words, this function does not pass judgement upon the
validity of multiple matches.
"""
# is it in the optionNames dict?
try:
# sys.stderr.write(argName + string.join(self.optionNames.keys()) + "\n")
# yes, get index
tupleIndex = self.optionNames[argName]
# and return tuple as element of list
return [self.optionTuples[tupleIndex]]
except KeyError:
# are abbreviations allowed?
if not self.allowAbbreviations:
# No! terefore, this cannot be valid argument-- nothing found
return None
# argName might be an abbreviation (and, abbreviations must
# be allowed... or this would not have been reached!)
# create regex for argName
argExpr = re.compile('^' + argName)
tuples = filter(lambda x, argExpr=argExpr: argExpr.search(x[0]) is not None,
self.optionTuples)
if not len(tuples):
return None
else:
return tuples
def _isTerminator(self, optionName):
"""
Returns the full name of the terminator if optionName is a valid
terminator. If it is, sets self.terminator to the full name of
the terminator.
If more than one terminator matched, raises a term_error with a
string describing the ambiguity.
"""
# sys.stderr.write(optionName + "\n")
# sys.stderr.write(repr(self.terminators))
if optionName in self.terminators:
self.terminator = optionName
elif not self.allowAbbreviations:
return None
# regex thing in bogus
# termExpr = regex.compile('^' + optionName)
terms = filter(lambda x, on=optionName: string.find(x,on) == 0, self.terminators)
if not len(terms):
return None
elif len(terms) > 1:
raise term_error, 'Ambiguous terminator \'' + optionName + \
'\' matches ' + repr(terms)
self.terminator = terms[0]
return self.terminator
def processArguments(self, args = None):
"""
Processes args, a list of arguments (including options).
If args is the same as sys.argv, automatically trims the first
argument (the executable name/path).
If an exception is not raised, the argument list was parsed
correctly.
Upon successful completion, the freeValues instance variable
will contain all the arguments that were not associated with an
option in the order they were encountered. optionValues is a
dictionary containing the value of each option-- the method
valueForOption() can be used to query this dictionary.
terminator will contain the argument encountered that terminated
option processing (or None, if a terminator was never
encountered) and termValues will contain all of the options that
appeared after the Terminator (or an empty list).
"""
if hasattr(sys, "argv") and args == sys.argv:
args = sys.argv[1:]
max = len(args) # maximum index + 1
self.freeValues = [] # array to hold return values
self.optionValues= {}
index = 0 # initial index
self.terminator = None
self.termValues = []
while index < max:
# obtain argument
arg = args[index]
# increment index -- REMEMBER; it is NOW incremented
index = index + 1
# terminate immediately if option terminator encountered
if self._isTerminator(arg):
self.freeValues = self.freeValues + args[index:]
self.termValues = args[index:]
return
# is this possibly an option?
match = self.optionStartExpr.match(arg)
if match is None:
# not an option-- add to freeValues
self.freeValues = self.freeValues + [arg]
if not self.orderMixed:
# mixing not allowed; add rest of args as freeValues
self.freeValues = self.freeValues + args[index:]
# return to caller
return
else:
continue
# grab name
optName = match.group('option')
# obtain next argument-- index has already been incremented
nextArg = match.group('arg')
if nextArg:
nextArg = nextArg[1:]
index = index - 1 # put it back
else:
try:
nextArg = args[index]
except:
nextArg = None
# transpose to lower case, if necessary
if self.ignoreCase:
optName = string.lower(optName)
# obtain defining tuple
tuples = self._getArgTuple(optName)
if tuples == None:
raise arg_error, 'Illegal option \'' + arg + '\''
elif len(tuples) > 1:
raise arg_error, 'Ambiguous option \'' + arg + '\'; matches ' + \
repr(map(lambda x: x[0], tuples))
else:
config = tuples[0]
# config is now set to the configuration tuple for the
# argument
(fullName, spec, realName) = config
(optType, optMode, optDefault, optMultiple) = spec
# if opt mode required, but nextArg is none, raise an error
if (optMode == ArgRequired):
if (not nextArg) or self._isTerminator(nextArg):
# print nextArg
raise arg_error, 'Option \'' + arg + \
'\' requires an argument of type ' + optType
if (not optMode == None) and nextArg and (not self._isTerminator(nextArg)):
# nextArg defined, option configured to possibly consume arg
try:
# grab conversion function-- the try is more for internal diagnostics
func = ConversionFunctions[optType]
try:
optionValue = func(nextArg)
index = index + 1
except:
# only raise conversion error if REQUIRED to consume argument
if optMode == ArgRequired:
raise arg_error, 'Invalid argument to option \'' + arg + \
'\'; should be \'' + optType + '\''
else:
optionValue = optDefault
except arg_error:
raise arg_error, sys.exc_value
except:
raise arg_error, '(' + arg + \
') Conversion function for \'' + optType + '\' not found.'
else:
optionValue = optDefault
# add value to options dictionary
if optMultiple:
# can be multiple values
try:
# try to append element
self.optionValues[realName] = self.optionValues[realName] + [optionValue]
except:
# failed-- must not exist; add it
self.optionValues[realName] = [optionValue]
else:
# only one value per
if self.isPosixCompliant and self.optionValues.has_key(realName):
raise arg_error, 'Argument \'' + arg + '\' occurs multiple times.'
self.optionValues[realName] = optionValue
def valueForOption(self, optionName, defaultValue = None):
"""
Return the value associated with optionName. If optionName was
not encountered during parsing of the arguments, returns the
defaultValue (which defaults to None).
"""
try:
optionValue = self.optionValues[optionName]
except:
optionValue = defaultValue
return optionValue
##
## test/example section
##
test_error = 'Test Run Amok!'
def _test():
"""
A relatively complete test suite.
"""
try:
DPyGetOpt(['foo', 'bar=s', 'foo'])
except:
print 'EXCEPTION (should be \'foo\' already used..): ' + sys.exc_value
try:
DPyGetOpt(['foo|bar|apple=s@', 'baz|apple!'])
except:
print 'EXCEPTION (should be duplicate alias/name error): ' + sys.exc_value
x = DPyGetOpt(['apple|atlas=i@', 'application|executable=f@'])
try:
x.processArguments(['-app', '29.3'])
except:
print 'EXCEPTION (should be ambiguous argument): ' + sys.exc_value
x = DPyGetOpt(['foo'], ['antigravity', 'antithesis'])
try:
x.processArguments(['-foo', 'anti'])
except:
print 'EXCEPTION (should be ambiguous terminator): ' + sys.exc_value
profile = ['plain-option',
'boolean-option!',
'list-of-integers=i@',
'list-real-option|list-real-alias|list-real-pseudonym=f@',
'optional-string-option:s',
'abbreviated-string-list=s@']
terminators = ['terminator']
args = ['-plain-option',
'+noboolean-option',
'--list-of-integers', '1',
'+list-of-integers', '2',
'-list-of-integers', '3',
'freeargone',
'-list-real-option', '1.1',
'+list-real-alias', '1.2',
'--list-real-pseudonym', '1.3',
'freeargtwo',
'-abbreviated-string-list', 'String1',
'--abbreviated-s', 'String2',
'-abbrev', 'String3',
'-a', 'String4',
'-optional-string-option',
'term',
'next option should look like an invalid arg',
'-a']
print 'Using profile: ' + repr(profile)
print 'With terminator: ' + repr(terminators)
print 'Processing arguments: ' + repr(args)
go = DPyGetOpt(profile, terminators)
go.processArguments(args)
print 'Options (and values): ' + repr(go.optionValues)
print 'free args: ' + repr(go.freeValues)
print 'term args: ' + repr(go.termValues)