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configobj.py
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configobj.py
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# configobj.py
# A config file reader/writer that supports nested sections in config files.
# Copyright (C) 2005-2010 Michael Foord, Nicola Larosa
# E-mail: fuzzyman AT voidspace DOT org DOT uk
# nico AT tekNico DOT net
# ConfigObj 4
# http://www.voidspace.org.uk/python/configobj.html
# Released subject to the BSD License
# Please see http://www.voidspace.org.uk/python/license.shtml
# Scripts maintained at http://www.voidspace.org.uk/python/index.shtml
# For information about bugfixes, updates and support, please join the
# ConfigObj mailing list:
# http://lists.sourceforge.net/lists/listinfo/configobj-develop
# Comments, suggestions and bug reports welcome.
from __future__ import generators
import os
import re
import sys
from codecs import BOM_UTF8, BOM_UTF16, BOM_UTF16_BE, BOM_UTF16_LE
# imported lazily to avoid startup performance hit if it isn't used
compiler = None
# A dictionary mapping BOM to
# the encoding to decode with, and what to set the
# encoding attribute to.
BOMS = {
BOM_UTF8: ('utf_8', None),
BOM_UTF16_BE: ('utf16_be', 'utf_16'),
BOM_UTF16_LE: ('utf16_le', 'utf_16'),
BOM_UTF16: ('utf_16', 'utf_16'),
}
# All legal variants of the BOM codecs.
# TODO: the list of aliases is not meant to be exhaustive, is there a
# better way ?
BOM_LIST = {
'utf_16': 'utf_16',
'u16': 'utf_16',
'utf16': 'utf_16',
'utf-16': 'utf_16',
'utf16_be': 'utf16_be',
'utf_16_be': 'utf16_be',
'utf-16be': 'utf16_be',
'utf16_le': 'utf16_le',
'utf_16_le': 'utf16_le',
'utf-16le': 'utf16_le',
'utf_8': 'utf_8',
'u8': 'utf_8',
'utf': 'utf_8',
'utf8': 'utf_8',
'utf-8': 'utf_8',
}
# Map of encodings to the BOM to write.
BOM_SET = {
'utf_8': BOM_UTF8,
'utf_16': BOM_UTF16,
'utf16_be': BOM_UTF16_BE,
'utf16_le': BOM_UTF16_LE,
None: BOM_UTF8
}
def match_utf8(encoding):
return BOM_LIST.get(encoding.lower()) == 'utf_8'
# Quote strings used for writing values
squot = "'%s'"
dquot = '"%s"'
noquot = "%s"
wspace_plus = ' \r\n\v\t\'"'
tsquot = '"""%s"""'
tdquot = "'''%s'''"
# Sentinel for use in getattr calls to replace hasattr
MISSING = object()
__version__ = '4.7.2'
try:
any
except NameError:
def any(iterable):
for entry in iterable:
if entry:
return True
return False
__all__ = (
'__version__',
'DEFAULT_INDENT_TYPE',
'DEFAULT_INTERPOLATION',
'ConfigObjError',
'NestingError',
'ParseError',
'DuplicateError',
'ConfigspecError',
'ConfigObj',
'SimpleVal',
'InterpolationError',
'InterpolationLoopError',
'MissingInterpolationOption',
'RepeatSectionError',
'ReloadError',
'UnreprError',
'UnknownType',
'flatten_errors',
'get_extra_values'
)
DEFAULT_INTERPOLATION = 'configparser'
DEFAULT_INDENT_TYPE = ' '
MAX_INTERPOL_DEPTH = 10
OPTION_DEFAULTS = {
'interpolation': True,
'raise_errors': False,
'list_values': True,
'create_empty': False,
'file_error': False,
'configspec': None,
'stringify': True,
# option may be set to one of ('', ' ', '\t')
'indent_type': None,
'encoding': None,
'default_encoding': None,
'unrepr': False,
'write_empty_values': False,
}
def getObj(s):
global compiler
if compiler is None:
import compiler
s = "a=" + s
p = compiler.parse(s)
return p.getChildren()[1].getChildren()[0].getChildren()[1]
class UnknownType(Exception):
pass
class Builder(object):
def build(self, o):
m = getattr(self, 'build_' + o.__class__.__name__, None)
if m is None:
raise UnknownType(o.__class__.__name__)
return m(o)
def build_List(self, o):
return map(self.build, o.getChildren())
def build_Const(self, o):
return o.value
def build_Dict(self, o):
d = {}
i = iter(map(self.build, o.getChildren()))
for el in i:
d[el] = i.next()
return d
def build_Tuple(self, o):
return tuple(self.build_List(o))
def build_Name(self, o):
if o.name == 'None':
return None
if o.name == 'True':
return True
if o.name == 'False':
return False
# An undefined Name
raise UnknownType('Undefined Name')
def build_Add(self, o):
real, imag = map(self.build_Const, o.getChildren())
try:
real = float(real)
except TypeError:
raise UnknownType('Add')
if not isinstance(imag, complex) or imag.real != 0.0:
raise UnknownType('Add')
return real+imag
def build_Getattr(self, o):
parent = self.build(o.expr)
return getattr(parent, o.attrname)
def build_UnarySub(self, o):
return -self.build_Const(o.getChildren()[0])
def build_UnaryAdd(self, o):
return self.build_Const(o.getChildren()[0])
_builder = Builder()
def unrepr(s):
if not s:
return s
return _builder.build(getObj(s))
class ConfigObjError(SyntaxError):
"""
This is the base class for all errors that ConfigObj raises.
It is a subclass of SyntaxError.
"""
def __init__(self, message='', line_number=None, line=''):
self.line = line
self.line_number = line_number
SyntaxError.__init__(self, message)
class NestingError(ConfigObjError):
"""
This error indicates a level of nesting that doesn't match.
"""
class ParseError(ConfigObjError):
"""
This error indicates that a line is badly written.
It is neither a valid ``key = value`` line,
nor a valid section marker line.
"""
class ReloadError(IOError):
"""
A 'reload' operation failed.
This exception is a subclass of ``IOError``.
"""
def __init__(self):
IOError.__init__(self, 'reload failed, filename is not set.')
class DuplicateError(ConfigObjError):
"""
The keyword or section specified already exists.
"""
class ConfigspecError(ConfigObjError):
"""
An error occured whilst parsing a configspec.
"""
class InterpolationError(ConfigObjError):
"""Base class for the two interpolation errors."""
class InterpolationLoopError(InterpolationError):
"""Maximum interpolation depth exceeded in string interpolation."""
def __init__(self, option):
InterpolationError.__init__(
self,
'interpolation loop detected in value "%s".' % option)
class RepeatSectionError(ConfigObjError):
"""
This error indicates additional sections in a section with a
``__many__`` (repeated) section.
"""
class MissingInterpolationOption(InterpolationError):
"""A value specified for interpolation was missing."""
def __init__(self, option):
msg = 'missing option "%s" in interpolation.' % option
InterpolationError.__init__(self, msg)
class UnreprError(ConfigObjError):
"""An error parsing in unrepr mode."""
class InterpolationEngine(object):
"""
A helper class to help perform string interpolation.
This class is an abstract base class; its descendants perform
the actual work.
"""
# compiled regexp to use in self.interpolate()
_KEYCRE = re.compile(r"%\(([^)]*)\)s")
_cookie = '%'
def __init__(self, section):
# the Section instance that "owns" this engine
self.section = section
def interpolate(self, key, value):
# short-cut
if not self._cookie in value:
return value
def recursive_interpolate(key, value, section, backtrail):
"""The function that does the actual work.
``value``: the string we're trying to interpolate.
``section``: the section in which that string was found
``backtrail``: a dict to keep track of where we've been,
to detect and prevent infinite recursion loops
This is similar to a depth-first-search algorithm.
"""
# Have we been here already?
if (key, section.name) in backtrail:
# Yes - infinite loop detected
raise InterpolationLoopError(key)
# Place a marker on our backtrail so we won't come back here again
backtrail[(key, section.name)] = 1
# Now start the actual work
match = self._KEYCRE.search(value)
while match:
# The actual parsing of the match is implementation-dependent,
# so delegate to our helper function
k, v, s = self._parse_match(match)
if k is None:
# That's the signal that no further interpolation is needed
replacement = v
else:
# Further interpolation may be needed to obtain final value
replacement = recursive_interpolate(k, v, s, backtrail)
# Replace the matched string with its final value
start, end = match.span()
value = ''.join((value[:start], replacement, value[end:]))
new_search_start = start + len(replacement)
# Pick up the next interpolation key, if any, for next time
# through the while loop
match = self._KEYCRE.search(value, new_search_start)
# Now safe to come back here again; remove marker from backtrail
del backtrail[(key, section.name)]
return value
# Back in interpolate(), all we have to do is kick off the recursive
# function with appropriate starting values
value = recursive_interpolate(key, value, self.section, {})
return value
def _fetch(self, key):
"""Helper function to fetch values from owning section.
Returns a 2-tuple: the value, and the section where it was found.
"""
# switch off interpolation before we try and fetch anything !
save_interp = self.section.main.interpolation
self.section.main.interpolation = False
# Start at section that "owns" this InterpolationEngine
current_section = self.section
while True:
# try the current section first
val = current_section.get(key)
if val is not None and not isinstance(val, Section):
break
# try "DEFAULT" next
val = current_section.get('DEFAULT', {}).get(key)
if val is not None and not isinstance(val, Section):
break
# move up to parent and try again
# top-level's parent is itself
if current_section.parent is current_section:
# reached top level, time to give up
break
current_section = current_section.parent
# restore interpolation to previous value before returning
self.section.main.interpolation = save_interp
if val is None:
raise MissingInterpolationOption(key)
return val, current_section
def _parse_match(self, match):
"""Implementation-dependent helper function.
Will be passed a match object corresponding to the interpolation
key we just found (e.g., "%(foo)s" or "$foo"). Should look up that
key in the appropriate config file section (using the ``_fetch()``
helper function) and return a 3-tuple: (key, value, section)
``key`` is the name of the key we're looking for
``value`` is the value found for that key
``section`` is a reference to the section where it was found
``key`` and ``section`` should be None if no further
interpolation should be performed on the resulting value
(e.g., if we interpolated "$$" and returned "$").
"""
raise NotImplementedError()
class ConfigParserInterpolation(InterpolationEngine):
"""Behaves like ConfigParser."""
_cookie = '%'
_KEYCRE = re.compile(r"%\(([^)]*)\)s")
def _parse_match(self, match):
key = match.group(1)
value, section = self._fetch(key)
return key, value, section
class TemplateInterpolation(InterpolationEngine):
"""Behaves like string.Template."""
_cookie = '$'
_delimiter = '$'
_KEYCRE = re.compile(r"""
\$(?:
(?P<escaped>\$) | # Two $ signs
(?P<named>[_a-z][_a-z0-9]*) | # $name format
{(?P<braced>[^}]*)} # ${name} format
)
""", re.IGNORECASE | re.VERBOSE)
def _parse_match(self, match):
# Valid name (in or out of braces): fetch value from section
key = match.group('named') or match.group('braced')
if key is not None:
value, section = self._fetch(key)
return key, value, section
# Escaped delimiter (e.g., $$): return single delimiter
if match.group('escaped') is not None:
# Return None for key and section to indicate it's time to stop
return None, self._delimiter, None
# Anything else: ignore completely, just return it unchanged
return None, match.group(), None
interpolation_engines = {
'configparser': ConfigParserInterpolation,
'template': TemplateInterpolation,
}
def __newobj__(cls, *args):
# Hack for pickle
return cls.__new__(cls, *args)
class Section(dict):
"""
A dictionary-like object that represents a section in a config file.
It does string interpolation if the 'interpolation' attribute
of the 'main' object is set to True.
Interpolation is tried first from this object, then from the 'DEFAULT'
section of this object, next from the parent and its 'DEFAULT' section,
and so on until the main object is reached.
A Section will behave like an ordered dictionary - following the
order of the ``scalars`` and ``sections`` attributes.
You can use this to change the order of members.
Iteration follows the order: scalars, then sections.
"""
def __setstate__(self, state):
dict.update(self, state[0])
self.__dict__.update(state[1])
def __reduce__(self):
state = (dict(self), self.__dict__)
return (__newobj__, (self.__class__,), state)
def __init__(self, parent, depth, main, indict=None, name=None):
"""
* parent is the section above
* depth is the depth level of this section
* main is the main ConfigObj
* indict is a dictionary to initialise the section with
"""
if indict is None:
indict = {}
dict.__init__(self)
# used for nesting level *and* interpolation
self.parent = parent
# used for the interpolation attribute
self.main = main
# level of nesting depth of this Section
self.depth = depth
# purely for information
self.name = name
#
self._initialise()
# we do this explicitly so that __setitem__ is used properly
# (rather than just passing to ``dict.__init__``)
for entry, value in indict.iteritems():
self[entry] = value
def _initialise(self):
# the sequence of scalar values in this Section
self.scalars = []
# the sequence of sections in this Section
self.sections = []
# for comments :-)
self.comments = {}
self.inline_comments = {}
# the configspec
self.configspec = None
# for defaults
self.defaults = []
self.default_values = {}
self.extra_values = []
self._created = False
def _interpolate(self, key, value):
try:
# do we already have an interpolation engine?
engine = self._interpolation_engine
except AttributeError:
# not yet: first time running _interpolate(), so pick the engine
name = self.main.interpolation
if name == True: # note that "if name:" would be incorrect here
# backwards-compatibility: interpolation=True means use default
name = DEFAULT_INTERPOLATION
name = name.lower() # so that "Template", "template", etc. all work
class_ = interpolation_engines.get(name, None)
if class_ is None:
# invalid value for self.main.interpolation
self.main.interpolation = False
return value
else:
# save reference to engine so we don't have to do this again
engine = self._interpolation_engine = class_(self)
# let the engine do the actual work
return engine.interpolate(key, value)
def __getitem__(self, key):
"""Fetch the item and do string interpolation."""
val = dict.__getitem__(self, key)
if self.main.interpolation:
if isinstance(val, basestring):
return self._interpolate(key, val)
if isinstance(val, list):
def _check(entry):
if isinstance(entry, basestring):
return self._interpolate(key, entry)
return entry
new = [_check(entry) for entry in val]
if new != val:
return new
return val
def __setitem__(self, key, value, unrepr=False):
"""
Correctly set a value.
Making dictionary values Section instances.
(We have to special case 'Section' instances - which are also dicts)
Keys must be strings.
Values need only be strings (or lists of strings) if
``main.stringify`` is set.
``unrepr`` must be set when setting a value to a dictionary, without
creating a new sub-section.
"""
if not isinstance(key, basestring):
raise ValueError('The key "%s" is not a string.' % key)
# add the comment
if key not in self.comments:
self.comments[key] = []
self.inline_comments[key] = ''
# remove the entry from defaults
if key in self.defaults:
self.defaults.remove(key)
#
if isinstance(value, Section):
if key not in self:
self.sections.append(key)
dict.__setitem__(self, key, value)
elif isinstance(value, dict) and not unrepr:
# First create the new depth level,
# then create the section
if key not in self:
self.sections.append(key)
new_depth = self.depth + 1
dict.__setitem__(
self,
key,
Section(
self,
new_depth,
self.main,
indict=value,
name=key))
else:
if key not in self:
self.scalars.append(key)
if not self.main.stringify:
if isinstance(value, basestring):
pass
elif isinstance(value, (list, tuple)):
for entry in value:
if not isinstance(entry, basestring):
raise TypeError('Value is not a string "%s".' % entry)
else:
raise TypeError('Value is not a string "%s".' % value)
dict.__setitem__(self, key, value)
def __delitem__(self, key):
"""Remove items from the sequence when deleting."""
dict. __delitem__(self, key)
if key in self.scalars:
self.scalars.remove(key)
else:
self.sections.remove(key)
del self.comments[key]
del self.inline_comments[key]
def get(self, key, default=None):
"""A version of ``get`` that doesn't bypass string interpolation."""
try:
return self[key]
except KeyError:
return default
def update(self, indict):
"""
A version of update that uses our ``__setitem__``.
"""
for entry in indict:
self[entry] = indict[entry]
def pop(self, key, default=MISSING):
"""
'D.pop(k[,d]) -> v, remove specified key and return the corresponding value.
If key is not found, d is returned if given, otherwise KeyError is raised'
"""
try:
val = self[key]
except KeyError:
if default is MISSING:
raise
val = default
else:
del self[key]
return val
def popitem(self):
"""Pops the first (key,val)"""
sequence = (self.scalars + self.sections)
if not sequence:
raise KeyError(": 'popitem(): dictionary is empty'")
key = sequence[0]
val = self[key]
del self[key]
return key, val
def clear(self):
"""
A version of clear that also affects scalars/sections
Also clears comments and configspec.
Leaves other attributes alone :
depth/main/parent are not affected
"""
dict.clear(self)
self.scalars = []
self.sections = []
self.comments = {}
self.inline_comments = {}
self.configspec = None
self.defaults = []
self.extra_values = []
def setdefault(self, key, default=None):
"""A version of setdefault that sets sequence if appropriate."""
try:
return self[key]
except KeyError:
self[key] = default
return self[key]
def items(self):
"""D.items() -> list of D's (key, value) pairs, as 2-tuples"""
return zip((self.scalars + self.sections), self.values())
def keys(self):
"""D.keys() -> list of D's keys"""
return (self.scalars + self.sections)
def values(self):
"""D.values() -> list of D's values"""
return [self[key] for key in (self.scalars + self.sections)]
def iteritems(self):
"""D.iteritems() -> an iterator over the (key, value) items of D"""
return iter(self.items())
def iterkeys(self):
"""D.iterkeys() -> an iterator over the keys of D"""
return iter((self.scalars + self.sections))
__iter__ = iterkeys
def itervalues(self):
"""D.itervalues() -> an iterator over the values of D"""
return iter(self.values())
def __repr__(self):
"""x.__repr__() <==> repr(x)"""
def _getval(key):
try:
return self[key]
except MissingInterpolationOption:
return dict.__getitem__(self, key)
return '{%s}' % ', '.join([('%s: %s' % (repr(key), repr(_getval(key))))
for key in (self.scalars + self.sections)])
__str__ = __repr__
__str__.__doc__ = "x.__str__() <==> str(x)"
# Extra methods - not in a normal dictionary
def dict(self):
"""
Return a deepcopy of self as a dictionary.
All members that are ``Section`` instances are recursively turned to
ordinary dictionaries - by calling their ``dict`` method.
>>> n = a.dict()
>>> n == a
1
>>> n is a
0
"""
newdict = {}
for entry in self:
this_entry = self[entry]
if isinstance(this_entry, Section):
this_entry = this_entry.dict()
elif isinstance(this_entry, list):
# create a copy rather than a reference
this_entry = list(this_entry)
elif isinstance(this_entry, tuple):
# create a copy rather than a reference
this_entry = tuple(this_entry)
newdict[entry] = this_entry
return newdict
def merge(self, indict):
"""
A recursive update - useful for merging config files.
>>> a = '''[section1]
... option1 = True
... [[subsection]]
... more_options = False
... # end of file'''.splitlines()
>>> b = '''# File is user.ini
... [section1]
... option1 = False
... # end of file'''.splitlines()
>>> c1 = ConfigObj(b)
>>> c2 = ConfigObj(a)
>>> c2.merge(c1)
>>> c2
ConfigObj({'section1': {'option1': 'False', 'subsection': {'more_options': 'False'}}})
"""
for key, val in indict.items():
if (key in self and isinstance(self[key], dict) and
isinstance(val, dict)):
self[key].merge(val)
else:
self[key] = val
def rename(self, oldkey, newkey):
"""
Change a keyname to another, without changing position in sequence.
Implemented so that transformations can be made on keys,
as well as on values. (used by encode and decode)
Also renames comments.
"""
if oldkey in self.scalars:
the_list = self.scalars
elif oldkey in self.sections:
the_list = self.sections
else:
raise KeyError('Key "%s" not found.' % oldkey)
pos = the_list.index(oldkey)
#
val = self[oldkey]
dict.__delitem__(self, oldkey)
dict.__setitem__(self, newkey, val)
the_list.remove(oldkey)
the_list.insert(pos, newkey)
comm = self.comments[oldkey]
inline_comment = self.inline_comments[oldkey]
del self.comments[oldkey]
del self.inline_comments[oldkey]
self.comments[newkey] = comm
self.inline_comments[newkey] = inline_comment
def walk(self, function, raise_errors=True,
call_on_sections=False, **keywargs):
"""
Walk every member and call a function on the keyword and value.
Return a dictionary of the return values
If the function raises an exception, raise the errror
unless ``raise_errors=False``, in which case set the return value to
``False``.
Any unrecognised keyword arguments you pass to walk, will be pased on
to the function you pass in.
Note: if ``call_on_sections`` is ``True`` then - on encountering a
subsection, *first* the function is called for the *whole* subsection,
and then recurses into it's members. This means your function must be
able to handle strings, dictionaries and lists. This allows you
to change the key of subsections as well as for ordinary members. The
return value when called on the whole subsection has to be discarded.
See the encode and decode methods for examples, including functions.
.. admonition:: caution
You can use ``walk`` to transform the names of members of a section
but you mustn't add or delete members.
>>> config = '''[XXXXsection]
... XXXXkey = XXXXvalue'''.splitlines()
>>> cfg = ConfigObj(config)
>>> cfg
ConfigObj({'XXXXsection': {'XXXXkey': 'XXXXvalue'}})
>>> def transform(section, key):
... val = section[key]
... newkey = key.replace('XXXX', 'CLIENT1')
... section.rename(key, newkey)
... if isinstance(val, (tuple, list, dict)):
... pass
... else:
... val = val.replace('XXXX', 'CLIENT1')
... section[newkey] = val
>>> cfg.walk(transform, call_on_sections=True)
{'CLIENT1section': {'CLIENT1key': None}}
>>> cfg
ConfigObj({'CLIENT1section': {'CLIENT1key': 'CLIENT1value'}})
"""
out = {}
# scalars first
for i in range(len(self.scalars)):
entry = self.scalars[i]
try:
val = function(self, entry, **keywargs)
# bound again in case name has changed
entry = self.scalars[i]
out[entry] = val
except Exception:
if raise_errors:
raise
else:
entry = self.scalars[i]
out[entry] = False
# then sections
for i in range(len(self.sections)):
entry = self.sections[i]
if call_on_sections:
try:
function(self, entry, **keywargs)
except Exception:
if raise_errors:
raise
else:
entry = self.sections[i]
out[entry] = False
# bound again in case name has changed
entry = self.sections[i]
# previous result is discarded
out[entry] = self[entry].walk(
function,
raise_errors=raise_errors,
call_on_sections=call_on_sections,
**keywargs)
return out
def as_bool(self, key):
"""
Accepts a key as input. The corresponding value must be a string or
the objects (``True`` or 1) or (``False`` or 0). We allow 0 and 1 to
retain compatibility with Python 2.2.
If the string is one of ``True``, ``On``, ``Yes``, or ``1`` it returns
``True``.
If the string is one of ``False``, ``Off``, ``No``, or ``0`` it returns
``False``.
``as_bool`` is not case sensitive.
Any other input will raise a ``ValueError``.
>>> a = ConfigObj()
>>> a['a'] = 'fish'
>>> a.as_bool('a')
Traceback (most recent call last):
ValueError: Value "fish" is neither True nor False
>>> a['b'] = 'True'
>>> a.as_bool('b')
1
>>> a['b'] = 'off'
>>> a.as_bool('b')
0
"""
val = self[key]
if val == True:
return True
elif val == False:
return False
else:
try:
if not isinstance(val, basestring):
# TODO: Why do we raise a KeyError here?
raise KeyError()
else:
return self.main._bools[val.lower()]
except KeyError:
raise ValueError('Value "%s" is neither True nor False' % val)
def as_int(self, key):
"""
A convenience method which coerces the specified value to an integer.
If the value is an invalid literal for ``int``, a ``ValueError`` will
be raised.
>>> a = ConfigObj()
>>> a['a'] = 'fish'
>>> a.as_int('a')
Traceback (most recent call last):
ValueError: invalid literal for int() with base 10: 'fish'
>>> a['b'] = '1'
>>> a.as_int('b')
1
>>> a['b'] = '3.2'
>>> a.as_int('b')