tiramisu/tiramisu/option.py

1013 lines
41 KiB
Python

# -*- coding: utf-8 -*-
"option types and option description"
# Copyright (C) 2012-2013 Team tiramisu (see AUTHORS for all contributors)
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# The original `Config` design model is unproudly borrowed from
# the rough pypy's guys: http://codespeak.net/svn/pypy/dist/pypy/config/
# the whole pypy projet is under MIT licence
# ____________________________________________________________
import re
from copy import copy, deepcopy
from types import FunctionType
from IPy import IP
from tiramisu.error import ConflictError
from tiramisu.setting import groups, multitypes
from tiramisu.i18n import _
from tiramisu.autolib import carry_out_calculation
name_regexp = re.compile(r'^\d+')
forbidden_names = ('iter_all', 'iter_group', 'find', 'find_first',
'make_dict', 'unwrap_from_path', 'read_only',
'read_write', 'getowner', 'set_contexts')
def valid_name(name):
"an option's name is a str and does not start with 'impl' or 'cfgimpl'"
try:
name = str(name)
except:
return False
if re.match(name_regexp, name) is None and not name.startswith('_') \
and name not in forbidden_names \
and not name.startswith('impl_') \
and not name.startswith('cfgimpl_'):
return True
else:
return False
#____________________________________________________________
#
class BaseInformation(object):
"interface for an option's information attribute"
__slots__ = ('_impl_informations',)
def impl_set_information(self, key, value):
"""updates the information's attribute
(which is a dictionary)
:param key: information's key (ex: "help", "doc"
:param value: information's value (ex: "the help string")
"""
try:
self._impl_informations[key] = value
except AttributeError:
raise AttributeError(_('{0} has no attribute '
'impl_set_information').format(
self.__class__.__name__))
def impl_get_information(self, key, default=None):
"""retrieves one information's item
:param key: the item string (ex: "help")
"""
try:
if key in self._impl_informations:
return self._impl_informations[key]
elif default is not None:
return default
else:
raise ValueError(_("Information's item"
"not found: {0}").format(key))
except AttributeError:
raise AttributeError(_('{0} has no attribute '
'impl_get_information').format(
self.__class__.__name__))
class Option(BaseInformation):
"""
Abstract base class for configuration option's.
Reminder: an Option object is **not** a container for the value
"""
__slots__ = ('_name', '_requires', '_multi', '_validator',
'_default_multi', '_default', '_properties', '_callback',
'_multitype', '_master_slaves', '_consistencies', '_empty',
'_calc_properties')
_empty = ''
def __init__(self, name, doc, default=None, default_multi=None,
requires=None, multi=False, callback=None,
callback_params=None, validator=None, validator_args=None,
properties=None):
"""
:param name: the option's name
:param doc: the option's description
:param default: specifies the default value of the option,
for a multi : ['bla', 'bla', 'bla']
:param default_multi: 'bla' (used in case of a reset to default only at
a given index)
:param requires: is a list of names of options located anywhere
in the configuration.
:param multi: if true, the option's value is a list
:param callback: the name of a function. If set, the function's output
is responsible of the option's value
:param callback_params: the callback's parameter
:param validator: the name of a function wich stands for a custom
validation of the value
:param validator_args: the validator's parameters
"""
if not valid_name(name):
raise ValueError(_("invalid name: {0} for option").format(name))
self._name = name
self._impl_informations = {}
self.impl_set_information('doc', doc)
self._calc_properties, self._requires = validate_requires_arg(
requires, self._name)
self._multi = multi
self._consistencies = None
if validator is not None:
if type(validator) != FunctionType:
raise TypeError(_("validator must be a function"))
if validator_args is None:
validator_args = {}
self._validator = (validator, validator_args)
else:
self._validator = None
if not self._multi and default_multi is not None:
raise ValueError(_("a default_multi is set whereas multi is False"
" in option: {0}").format(name))
if default_multi is not None:
try:
self._validate(default_multi)
except ValueError, err:
raise ValueError(_("invalid default_multi value {0} "
"for option {1}: {2}").format(
str(default_multi), name, err))
if callback is not None and (default is not None or
default_multi is not None):
raise ValueError(_("default value not allowed if option: {0} "
"is calculated").format(name))
if callback is None and callback_params is not None:
raise ValueError(_("params defined for a callback function but "
"no callback defined"
" yet for option {0}").format(name))
if callback is not None:
if type(callback) != FunctionType:
raise ValueError('callback must be a function')
if callback_params is not None and \
not isinstance(callback_params, dict):
raise ValueError('callback_params must be a dict')
self._callback = (callback, callback_params)
else:
self._callback = None
if self._multi:
if default is None:
default = []
self._multitype = multitypes.default
self._default_multi = default_multi
self.impl_validate(default)
self._default = default
if properties is None:
properties = tuple()
if not isinstance(properties, tuple):
raise TypeError(_('invalid properties type {0} for {1},'
' must be a tuple').format(
type(properties),
self._name))
self._properties = properties # 'hidden', 'disabled'...
def __eq__(self, other):
"Option comparison"
if not isinstance(other, Option):
return False
slots = list(self.__slots__ +
Option.__slots__ +
BaseInformation.__slots__)
for var in slots:
try:
val1 = getattr(self, var)
not_in1 = False
except:
not_in1 = True
try:
val2 = getattr(other, var)
not_in2 = False
except:
not_in2 = True
if True in (not_in1, not_in2):
if not_in1 != not_in2:
return False
elif val1 != val2:
return False
return True
def __ne__(self, other):
if not isinstance(other, Option):
return False
return not self == other
def _launch_consistency(self, func, opt, vals, context, index, opt_):
if context is not None:
descr = context.cfgimpl_get_description()
if opt is self:
#values are for self, search opt_ values
values = vals
if context is not None:
path = descr.impl_get_path_by_opt(opt_)
values_ = context._getattr(path, validate=False)
else:
values_ = opt_.impl_getdefault()
if index is not None:
#value is not already set, could be higher
try:
values_ = values_[index]
except IndexError:
values_ = None
else:
#values are for opt_, search self values
values_ = vals
if context is not None:
path = descr.impl_get_path_by_opt(self)
values = context._getattr(path, validate=False)
else:
values = self.impl_getdefault()
if index is not None:
#value is not already set, could be higher
try:
values = values[index]
except IndexError:
values = None
if index is None and self.impl_is_multi():
for index in range(0, len(values)):
try:
value = values[index]
value_ = values_[index]
except IndexError:
value = None
value_ = None
if None not in (value, value_):
getattr(self, func)(opt_._name, value, value_)
else:
if None not in (values, values_):
getattr(self, func)(opt_._name, values, values_)
def impl_validate(self, value, context=None, validate=True):
"""
:param value: the option's value
:param validate: if true enables ``self._validator`` validation
"""
if not validate:
return
def val_validator(val):
if self._validator is not None:
callback_params = deepcopy(self._validator[1])
callback_params.setdefault('', []).insert(0, val)
return carry_out_calculation(self._name, config=context,
callback=self._validator[0],
callback_params=callback_params)
else:
return True
def do_validation(_value, _index=None):
if _value is None:
return True
if not val_validator(_value):
raise ValueError(_("invalid value {0} "
"for option {1} for object {2}"
).format(_value,
self._name,
self.__class__.__name__))
try:
self._validate(_value)
except ValueError, err:
raise ValueError(_("invalid value {0} for option {1}: {2}"
"").format(_value, self._name, err))
if context is not None:
descr._valid_consistency(self, _value, context, _index)
# generic calculation
if context is not None:
descr = context.cfgimpl_get_description()
if not self._multi:
do_validation(value)
else:
if not isinstance(value, list):
raise ValueError(_("invalid value {0} for option {1} "
"which must be a list").format(value,
self._name))
for index in range(0, len(value)):
val = value[index]
do_validation(val, index)
def impl_getdefault(self, default_multi=False):
"accessing the default value"
if not default_multi or not self.impl_is_multi():
return self._default
else:
return self.getdefault_multi()
def impl_getdefault_multi(self):
"accessing the default value for a multi"
return self._default_multi
def impl_get_multitype(self):
return self._multitype
def impl_get_master_slaves(self):
return self._master_slaves
def impl_is_empty_by_default(self):
"no default value has been set yet"
if ((not self.impl_is_multi() and self._default is None) or
(self.impl_is_multi() and (self._default == []
or None in self._default))):
return True
return False
def impl_getdoc(self):
"accesses the Option's doc"
return self.impl_get_information('doc')
def impl_has_callback(self):
"to know if a callback has been defined or not"
if self._callback is None:
return False
else:
return True
def impl_getkey(self, value):
return value
def impl_is_multi(self):
return self._multi
def impl_add_consistency(self, func, opt):
if self._consistencies is None:
self._consistencies = []
if not isinstance(opt, Option):
raise ValueError('consistency must be set with an option')
if self is opt:
raise ValueError('cannot add consistency with itself')
if self.impl_is_multi() != opt.impl_is_multi():
raise ValueError('options in consistency'
' should be multi in two sides')
func = '_cons_{0}'.format(func)
self._launch_consistency(func,
self,
self.impl_getdefault(),
None, None, opt)
self._consistencies.append((func, opt))
self.impl_validate(self.impl_getdefault())
def _cons_not_equal(self, optname, value, value_):
if value == value_:
raise ValueError(_("invalid value {0} for option {1} "
"must be different as {2} option"
"").format(value, self._name, optname))
class ChoiceOption(Option):
"""represents a choice out of several objects.
The option can also have the value ``None``
"""
__slots__ = ('_values', '_open_values', '_opt_type')
_opt_type = 'string'
def __init__(self, name, doc, values, default=None, default_multi=None,
requires=None, multi=False, callback=None,
callback_params=None, open_values=False, validator=None,
validator_args=None, properties=()):
"""
:param values: is a list of values the option can possibly take
"""
if not isinstance(values, tuple):
raise TypeError(_('values must be a tuple for {0}').format(name))
self._values = values
if open_values not in (True, False):
raise TypeError(_('open_values must be a boolean for '
'{0}').format(name))
self._open_values = open_values
super(ChoiceOption, self).__init__(name, doc, default=default,
default_multi=default_multi,
callback=callback,
callback_params=callback_params,
requires=requires,
multi=multi,
validator=validator,
validator_args=validator_args,
properties=properties)
def impl_get_values(self):
return self._values
def impl_is_openvalues(self):
return self._open_values
def _validate(self, value):
if not self._open_values and not value in self._values:
raise ValueError(_('value {0} is not permitted, '
'only {1} is allowed'
'').format(value, self._values))
class BoolOption(Option):
"represents a choice between ``True`` and ``False``"
__slots__ = ('_opt_type',)
_opt_type = 'bool'
def _validate(self, value):
if not isinstance(value, bool):
raise ValueError(_('value must be a boolean'))
class IntOption(Option):
"represents a choice of an integer"
__slots__ = ('_opt_type',)
_opt_type = 'int'
def _validate(self, value):
if not isinstance(value, int):
raise ValueError(_('value must be an integer'))
class FloatOption(Option):
"represents a choice of a floating point number"
__slots__ = ('_opt_type',)
_opt_type = 'float'
def _validate(self, value):
if not isinstance(value, float):
raise ValueError(_('value must be a float'))
class StrOption(Option):
"represents the choice of a string"
__slots__ = ('_opt_type',)
_opt_type = 'string'
def _validate(self, value):
if not isinstance(value, str):
raise ValueError(_('value must be a string, not '
'{0}').format(type(value)))
class UnicodeOption(Option):
"represents the choice of a unicode string"
__slots__ = ('_opt_type',)
_opt_type = 'unicode'
_empty = u''
def _validate(self, value):
if not isinstance(value, unicode):
raise ValueError(_('value must be an unicode'))
class SymLinkOption(object):
__slots__ = ('_name', '_opt', '_consistencies')
_opt_type = 'symlink'
_consistencies = None
def __init__(self, name, opt):
self._name = name
if not isinstance(opt, Option):
raise ValueError(_('malformed symlinkoption '
'must be an option '
'for symlink {0}').format(name))
self._opt = opt
def __getattr__(self, name):
if name in ('_name', '_opt', '_consistencies'):
return object.__getattr__(self, name)
else:
return getattr(self._opt, name)
class IPOption(Option):
"represents the choice of an ip"
__slots__ = ('_opt_type', '_only_private')
_opt_type = 'ip'
def __init__(self, name, doc, default=None, default_multi=None,
requires=None, multi=False, callback=None,
callback_params=None, validator=None, validator_args=None,
properties=None, only_private=False):
self._only_private = only_private
super(IPOption, self).__init__(name, doc, default=default,
default_multi=default_multi,
callback=callback,
callback_params=callback_params,
requires=requires,
multi=multi,
validator=validator,
validator_args=validator_args,
properties=properties)
def _validate(self, value):
ip = IP('{0}/32'.format(value))
if ip.iptype() == 'RESERVED':
raise ValueError(_("IP mustn't not be in reserved class"))
if self._only_private and not ip.iptype() == 'PRIVATE':
raise ValueError(_("IP must be in private class"))
class PortOption(Option):
"""represents the choice of a port
The port numbers are divided into three ranges:
the well-known ports,
the registered ports,
and the dynamic or private ports.
You can actived this three range.
Port number 0 is reserved and can't be used.
see: http://en.wikipedia.org/wiki/Port_numbers
"""
__slots__ = ('_opt_type', '_allow_range', '_allow_zero', '_min_value',
'_max_value')
_opt_type = 'port'
def __init__(self, name, doc, default=None, default_multi=None,
requires=None, multi=False, callback=None,
callback_params=None, validator=None, validator_args=None,
properties=None, allow_range=False, allow_zero=False,
allow_wellknown=True, allow_registred=True,
allow_private=False):
self._allow_range = allow_range
self._min_value = None
self._max_value = None
ports_min = [0, 1, 1024, 49152]
ports_max = [0, 1023, 49151, 65535]
is_finally = False
for index, allowed in enumerate([allow_zero,
allow_wellknown,
allow_registred,
allow_private]):
if self._min_value is None:
if allowed:
self._min_value = ports_min[index]
elif not allowed:
is_finally = True
elif allowed and is_finally:
raise ValueError(_('inconsistency in allowed range'))
if allowed:
self._max_value = ports_max[index]
if self._max_value is None:
raise ValueError(_('max value is empty'))
super(PortOption, self).__init__(name, doc, default=default,
default_multi=default_multi,
callback=callback,
callback_params=callback_params,
requires=requires,
multi=multi,
validator=validator,
validator_args=validator_args,
properties=properties)
def _validate(self, value):
if self._allow_range and ":" in str(value):
value = str(value).split(':')
if len(value) != 2:
raise ValueError('range must have two values only')
if not value[0] < value[1]:
raise ValueError('first port in range must be'
' smaller than the second one')
else:
value = [value]
for val in value:
if not self._min_value <= int(val) <= self._max_value:
raise ValueError('port must be an between {0} and {1}'
''.format(self._min_value, self._max_value))
class NetworkOption(Option):
"represents the choice of a network"
__slots__ = ('_opt_type',)
_opt_type = 'network'
def _validate(self, value):
ip = IP(value)
if ip.iptype() == 'RESERVED':
raise ValueError(_("network mustn't not be in reserved class"))
class NetmaskOption(Option):
"represents the choice of a netmask"
__slots__ = ('_opt_type',)
_opt_type = 'netmask'
def _validate(self, value):
IP('0.0.0.0/{0}'.format(value))
def _cons_network_netmask(self, optname, value, value_):
#opts must be (netmask, network) options
self.__cons_netmask(optname, value, value_, False)
def _cons_ip_netmask(self, optname, value, value_):
#opts must be (netmask, ip) options
self.__cons_netmask(optname, value, value_, True)
#def __cons_netmask(self, opt, value, context, index, opts, make_net):
def __cons_netmask(self, optname, val_netmask, val_ipnetwork, make_net):
msg = None
try:
ip = IP('{0}/{1}'.format(val_ipnetwork, val_netmask),
make_net=make_net)
#if cidr == 32, ip same has network
if ip.prefixlen() != 32:
try:
IP('{0}/{1}'.format(val_ipnetwork, val_netmask),
make_net=not make_net)
except ValueError:
if not make_net:
msg = _("invalid network {0} ({1}) "
"with netmask {2} ({3}),"
" this network is an IP")
else:
if make_net:
msg = _("invalid IP {0} ({1}) with netmask {2} ({3}),"
" this IP is a network")
except ValueError:
if make_net:
msg = _("invalid IP {0} ({1}) with netmask {2} ({3})")
else:
msg = _("invalid network {0} ({1}) with netmask {2} ({3})")
if msg is not None:
raise ValueError(msg.format(val_ipnetwork, optname,
val_netmask, self._name))
class DomainnameOption(Option):
"represents the choice of a domain name"
__slots__ = ('_opt_type', '_type', '_allow_ip')
_opt_type = 'domainname'
def __init__(self, name, doc, default=None, default_multi=None,
requires=None, multi=False, callback=None,
callback_params=None, validator=None, validator_args=None,
properties=None, allow_ip=False, type_='domainname'):
#netbios: for MS domain
#hostname: to identify the device
#domainname:
#fqdn: with tld, not supported yet
if type_ not in ['netbios', 'hostname', 'domainname']:
raise ValueError(_('unknown type_ {0} for hostname').format(type_))
self._type = type_
if allow_ip not in [True, False]:
raise ValueError(_('allow_ip must be a boolean'))
self._allow_ip = allow_ip
super(DomainnameOption, self).__init__(name, doc, default=default,
default_multi=default_multi,
callback=callback,
callback_params=callback_params,
requires=requires,
multi=multi,
validator=validator,
validator_args=validator_args,
properties=properties)
def _validate(self, value):
if self._allow_ip is True:
try:
IP('{0}/32'.format(value))
return
except ValueError:
pass
if self._type == 'netbios':
length = 15
extrachar = ''
elif self._type == 'hostname':
length = 63
extrachar = ''
elif self._type == 'domainname':
length = 255
extrachar = '\.'
if '.' not in value:
raise ValueError(_("invalid value for {0}, must have dot"
"").format(self._name))
if len(value) > length:
raise ValueError(_("invalid domainname's length for "
" {0} (max {1})").format(self._name, length))
if len(value) == 1:
raise ValueError(_("invalid domainname's length for {0} (min 2)"
"").format(self._name))
regexp = r'^[a-z]([a-z\d{0}-])*[a-z\d]$'.format(extrachar)
if re.match(regexp, value) is None:
raise ValueError(_('invalid domainname'))
class OptionDescription(BaseInformation):
"""Config's schema (organisation, group) and container of Options
The `OptionsDescription` objects lives in the `tiramisu.config.Config`.
"""
__slots__ = ('_name', '_requires', '_cache_paths', '_group_type',
'_properties', '_children', '_consistencies',
'_calc_properties')
def __init__(self, name, doc, children, requires=None, properties=None):
"""
:param children: a list of options (including optiondescriptions)
"""
if not valid_name(name):
raise ValueError(_("invalid name: "
" {0} for optiondescription").format(name))
self._name = name
self._impl_informations = {}
self.impl_set_information('doc', doc)
child_names = [child._name for child in children]
#better performance like this
valid_child = copy(child_names)
valid_child.sort()
old = None
for child in valid_child:
if id(child) == id(old):
raise ConflictError(_('duplicate option name: '
'{0}').format(child))
old = child
self._children = (tuple(child_names), tuple(children))
self._calc_properties, self._requires = validate_requires_arg(requires, self._name)
self._cache_paths = None
self._consistencies = None
if properties is None:
properties = tuple()
if not isinstance(properties, tuple):
raise TypeError(_('invalid properties type {0} for {1},'
' must be a tuple').format(type(properties),
self._name))
self._properties = properties # 'hidden', 'disabled'...
# the group_type is useful for filtering OptionDescriptions in a config
self._group_type = groups.default
def impl_getdoc(self):
return self.impl_get_information('doc')
def __getattr__(self, name):
try:
return self._children[1][self._children[0].index(name)]
except ValueError:
raise AttributeError(_('unknown Option {0} '
'in OptionDescription {1}'
'').format(name, self._name))
def impl_getkey(self, config):
return tuple([child.impl_getkey(getattr(config, child._name))
for child in self.impl_getchildren()])
def impl_getpaths(self, include_groups=False, _currpath=None):
"""returns a list of all paths in self, recursively
_currpath should not be provided (helps with recursion)
"""
if _currpath is None:
_currpath = []
paths = []
for option in self.impl_getchildren():
attr = option._name
if isinstance(option, OptionDescription):
if include_groups:
paths.append('.'.join(_currpath + [attr]))
paths += option.impl_getpaths(include_groups=include_groups,
_currpath=_currpath + [attr])
else:
paths.append('.'.join(_currpath + [attr]))
return paths
def impl_getchildren(self):
return self._children[1]
def impl_build_cache(self,
cache_path=None,
cache_option=None,
_currpath=None,
_consistencies=None):
if _currpath is None and self._cache_paths is not None:
return
if _currpath is None:
save = True
_currpath = []
_consistencies = {}
else:
save = False
if cache_path is None:
cache_path = [self._name]
cache_option = [self]
for option in self.impl_getchildren():
attr = option._name
if attr.startswith('_cfgimpl'):
continue
cache_option.append(option)
cache_path.append(str('.'.join(_currpath + [attr])))
if not isinstance(option, OptionDescription):
if option._consistencies is not None:
for consistency in option._consistencies:
func, opt = consistency
opts = (option, opt)
_consistencies.setdefault(opt,
[]).append((func, opts))
_consistencies.setdefault(option,
[]).append((func, opts))
else:
_currpath.append(attr)
option.impl_build_cache(cache_path,
cache_option,
_currpath,
_consistencies)
_currpath.pop()
if save:
#valid no duplicated option
valid_child = copy(cache_option)
valid_child.sort()
old = None
for child in valid_child:
if id(child) == id(old):
raise ConflictError(_('duplicate option: '
'{0}').format(child))
old = child
self._cache_paths = (tuple(cache_option), tuple(cache_path))
self._consistencies = _consistencies
def impl_get_opt_by_path(self, path):
try:
return self._cache_paths[0][self._cache_paths[1].index(path)]
except ValueError:
raise AttributeError(_('no option for path {0}').format(path))
def impl_get_path_by_opt(self, opt):
try:
return self._cache_paths[1][self._cache_paths[0].index(opt)]
except ValueError:
raise AttributeError(_('no option {0} found').format(opt))
# ____________________________________________________________
def impl_set_group_type(self, group_type):
"""sets a given group object to an OptionDescription
:param group_type: an instance of `GroupType` or `MasterGroupType`
that lives in `setting.groups`
"""
if self._group_type != groups.default:
raise TypeError(_('cannot change group_type if already set '
'(old {0}, new {1})').format(self._group_type,
group_type))
if isinstance(group_type, groups.GroupType):
self._group_type = group_type
if isinstance(group_type, groups.MasterGroupType):
#if master (same name has group) is set
identical_master_child_name = False
#for collect all slaves
slaves = []
master = None
for child in self.impl_getchildren():
if isinstance(child, OptionDescription):
raise ValueError(_("master group {0} shall not have "
"a subgroup").format(self._name))
if isinstance(child, SymLinkOption):
raise ValueError(_("master group {0} shall not have "
"a symlinkoption").format(self._name))
if not child.impl_is_multi():
raise ValueError(_("not allowed option {0} "
"in group {1}"
": this option is not a multi"
"").format(child._name, self._name))
if child._name == self._name:
identical_master_child_name = True
child._multitype = multitypes.master
master = child
else:
slaves.append(child)
if master is None:
raise ValueError(_('master group with wrong'
' master name for {0}'
).format(self._name))
master._master_slaves = tuple(slaves)
for child in self.impl_getchildren():
if child != master:
child._master_slaves = master
child._multitype = multitypes.slave
if not identical_master_child_name:
raise ValueError(_("no child has same nom has master group"
" for: {0}").format(self._name))
else:
raise ValueError(_('group_type : {0}'
' not allowed').format(group_type))
def impl_get_group_type(self):
return self._group_type
def _valid_consistency(self, opt, value, context=None, index=None):
consistencies = self._consistencies.get(opt)
if consistencies is not None:
for consistency in consistencies:
opt_ = consistency[1]
ret = opt_[0]._launch_consistency(consistency[0],
opt,
value,
context,
index,
opt_[1])
if ret is False:
return False
return True
def validate_requires_arg(requires, name):
"""check malformed requirements
and tranform dict to internal tuple
:param requires: have a look at the
:meth:`tiramisu.setting.Settings.apply_requires` method to
know more about
the description of the requires dictionnary
"""
if requires is None:
return None, None
ret_requires = {}
config_action = {}
for require in requires:
if not type(require) == dict:
raise ValueError(_("malformed requirements type for option:"
" {0}, must be a dict").format(name))
valid_keys = ('option', 'expected', 'action', 'inverse', 'transitive',
'same_action')
unknown_keys = frozenset(require.keys()) - frozenset(valid_keys)
if unknown_keys != frozenset():
raise ValueError('malformed requirements for option: {0}'
' unknown keys {1}, must only '
'{2}'.format(name,
unknown_keys,
valid_keys))
try:
option = require['option']
expected = require['expected']
action = require['action']
except KeyError:
raise ValueError(_("malformed requirements for option: {0}"
" require must have option, expected and"
" action keys").format(name))
inverse = require.get('inverse', False)
if inverse not in [True, False]:
raise ValueError(_('malformed requirements for option: {0}'
' inverse must be boolean'))
transitive = require.get('transitive', True)
if transitive not in [True, False]:
raise ValueError(_('malformed requirements for option: {0}'
' transitive must be boolean'))
same_action = require.get('same_action', True)
if same_action not in [True, False]:
raise ValueError(_('malformed requirements for option: {0}'
' same_action must be boolean'))
if not isinstance(option, Option):
print option, type(option)
raise ValueError(_('malformed requirements '
'must be an option in option {0}').format(name))
if option.impl_is_multi():
raise ValueError(_('malformed requirements option {0} '
'should not be a multi').format(name))
if expected is not None:
try:
option._validate(expected)
except ValueError, err:
raise ValueError(_('malformed requirements second argument '
'must be valid for option {0}'
': {1}').format(name, err))
if action in config_action:
if inverse != config_action[action]:
raise ValueError(_("inconsistency in action types"
" for option: {0}"
" action: {1}").format(name, action))
else:
config_action[action] = inverse
if action not in ret_requires:
ret_requires[action] = {}
if option not in ret_requires[action]:
ret_requires[action][option] = (option, [expected], action,
inverse, transitive, same_action)
else:
ret_requires[action][option][1].append(expected)
ret = []
for opt_requires in ret_requires.values():
ret_action = []
for require in opt_requires.values():
req = (require[0], tuple(require[1]),
require[2],
require[3],
require[4],
require[5])
ret_action.append(req)
ret.append(tuple(ret_action))
return frozenset(config_action.keys()), tuple(ret)