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# Copyright 2017 The Abseil Authors. | |
# | |
# Licensed under the Apache License, Version 2.0 (the "License"); | |
# you may not use this file except in compliance with the License. | |
# You may obtain a copy of the License at | |
# | |
# http://www.apache.org/licenses/LICENSE-2.0 | |
# | |
# Unless required by applicable law or agreed to in writing, software | |
# distributed under the License is distributed on an "AS IS" BASIS, | |
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | |
# See the License for the specific language governing permissions and | |
# limitations under the License. | |
"""Defines the FlagValues class - registry of 'Flag' objects. | |
Do NOT import this module directly. Import the flags package and use the | |
aliases defined at the package level instead. | |
""" | |
import copy | |
import itertools | |
import logging | |
import os | |
import sys | |
from typing import Any, Callable, Dict, Iterable, Iterator, List, Optional, Sequence, Text, TextIO, Generic, TypeVar, Union, Tuple | |
from xml.dom import minidom | |
from absl.flags import _exceptions | |
from absl.flags import _flag | |
from absl.flags import _helpers | |
from absl.flags import _validators_classes | |
from absl.flags._flag import Flag | |
# Add flagvalues module to disclaimed module ids. | |
_helpers.disclaim_module_ids.add(id(sys.modules[__name__])) | |
_T = TypeVar('_T') | |
class FlagValues: | |
"""Registry of :class:`~absl.flags.Flag` objects. | |
A :class:`FlagValues` can then scan command line arguments, passing flag | |
arguments through to the 'Flag' objects that it owns. It also | |
provides easy access to the flag values. Typically only one | |
:class:`FlagValues` object is needed by an application: | |
:const:`FLAGS`. | |
This class is heavily overloaded: | |
:class:`Flag` objects are registered via ``__setitem__``:: | |
FLAGS['longname'] = x # register a new flag | |
The ``.value`` attribute of the registered :class:`~absl.flags.Flag` objects | |
can be accessed as attributes of this :class:`FlagValues` object, through | |
``__getattr__``. Both the long and short name of the original | |
:class:`~absl.flags.Flag` objects can be used to access its value:: | |
FLAGS.longname # parsed flag value | |
FLAGS.x # parsed flag value (short name) | |
Command line arguments are scanned and passed to the registered | |
:class:`~absl.flags.Flag` objects through the ``__call__`` method. Unparsed | |
arguments, including ``argv[0]`` (e.g. the program name) are returned:: | |
argv = FLAGS(sys.argv) # scan command line arguments | |
The original registered :class:`~absl.flags.Flag` objects can be retrieved | |
through the use of the dictionary-like operator, ``__getitem__``:: | |
x = FLAGS['longname'] # access the registered Flag object | |
The ``str()`` operator of a :class:`absl.flags.FlagValues` object provides | |
help for all of the registered :class:`~absl.flags.Flag` objects. | |
""" | |
_HAS_DYNAMIC_ATTRIBUTES = True | |
# A note on collections.abc.Mapping: | |
# FlagValues defines __getitem__, __iter__, and __len__. It makes perfect | |
# sense to let it be a collections.abc.Mapping class. However, we are not | |
# able to do so. The mixin methods, e.g. keys, values, are not uncommon flag | |
# names. Those flag values would not be accessible via the FLAGS.xxx form. | |
__dict__: Dict[str, Any] | |
def __init__(self): | |
# Since everything in this class is so heavily overloaded, the only | |
# way of defining and using fields is to access __dict__ directly. | |
# Dictionary: flag name (string) -> Flag object. | |
self.__dict__['__flags'] = {} | |
# Set: name of hidden flag (string). | |
# Holds flags that should not be directly accessible from Python. | |
self.__dict__['__hiddenflags'] = set() | |
# Dictionary: module name (string) -> list of Flag objects that are defined | |
# by that module. | |
self.__dict__['__flags_by_module'] = {} | |
# Dictionary: module id (int) -> list of Flag objects that are defined by | |
# that module. | |
self.__dict__['__flags_by_module_id'] = {} | |
# Dictionary: module name (string) -> list of Flag objects that are | |
# key for that module. | |
self.__dict__['__key_flags_by_module'] = {} | |
# Bool: True if flags were parsed. | |
self.__dict__['__flags_parsed'] = False | |
# Bool: True if unparse_flags() was called. | |
self.__dict__['__unparse_flags_called'] = False | |
# None or Method(name, value) to call from __setattr__ for an unknown flag. | |
self.__dict__['__set_unknown'] = None | |
# A set of banned flag names. This is to prevent users from accidentally | |
# defining a flag that has the same name as a method on this class. | |
# Users can still allow defining the flag by passing | |
# allow_using_method_names=True in DEFINE_xxx functions. | |
self.__dict__['__banned_flag_names'] = frozenset(dir(FlagValues)) | |
# Bool: Whether to use GNU style scanning. | |
self.__dict__['__use_gnu_getopt'] = True | |
# Bool: Whether use_gnu_getopt has been explicitly set by the user. | |
self.__dict__['__use_gnu_getopt_explicitly_set'] = False | |
# Function: Takes a flag name as parameter, returns a tuple | |
# (is_retired, type_is_bool). | |
self.__dict__['__is_retired_flag_func'] = None | |
def set_gnu_getopt(self, gnu_getopt: bool = True) -> None: | |
"""Sets whether or not to use GNU style scanning. | |
GNU style allows mixing of flag and non-flag arguments. See | |
http://docs.python.org/library/getopt.html#getopt.gnu_getopt | |
Args: | |
gnu_getopt: bool, whether or not to use GNU style scanning. | |
""" | |
self.__dict__['__use_gnu_getopt'] = gnu_getopt | |
self.__dict__['__use_gnu_getopt_explicitly_set'] = True | |
def is_gnu_getopt(self) -> bool: | |
return self.__dict__['__use_gnu_getopt'] | |
def _flags(self) -> Dict[Text, Flag]: | |
return self.__dict__['__flags'] | |
def flags_by_module_dict(self) -> Dict[Text, List[Flag]]: | |
"""Returns the dictionary of module_name -> list of defined flags. | |
Returns: | |
A dictionary. Its keys are module names (strings). Its values | |
are lists of Flag objects. | |
""" | |
return self.__dict__['__flags_by_module'] | |
def flags_by_module_id_dict(self) -> Dict[int, List[Flag]]: | |
"""Returns the dictionary of module_id -> list of defined flags. | |
Returns: | |
A dictionary. Its keys are module IDs (ints). Its values | |
are lists of Flag objects. | |
""" | |
return self.__dict__['__flags_by_module_id'] | |
def key_flags_by_module_dict(self) -> Dict[Text, List[Flag]]: | |
"""Returns the dictionary of module_name -> list of key flags. | |
Returns: | |
A dictionary. Its keys are module names (strings). Its values | |
are lists of Flag objects. | |
""" | |
return self.__dict__['__key_flags_by_module'] | |
def register_flag_by_module(self, module_name: Text, flag: Flag) -> None: | |
"""Records the module that defines a specific flag. | |
We keep track of which flag is defined by which module so that we | |
can later sort the flags by module. | |
Args: | |
module_name: str, the name of a Python module. | |
flag: Flag, the Flag instance that is key to the module. | |
""" | |
flags_by_module = self.flags_by_module_dict() | |
flags_by_module.setdefault(module_name, []).append(flag) | |
def register_flag_by_module_id(self, module_id: int, flag: Flag) -> None: | |
"""Records the module that defines a specific flag. | |
Args: | |
module_id: int, the ID of the Python module. | |
flag: Flag, the Flag instance that is key to the module. | |
""" | |
flags_by_module_id = self.flags_by_module_id_dict() | |
flags_by_module_id.setdefault(module_id, []).append(flag) | |
def register_key_flag_for_module(self, module_name: Text, flag: Flag) -> None: | |
"""Specifies that a flag is a key flag for a module. | |
Args: | |
module_name: str, the name of a Python module. | |
flag: Flag, the Flag instance that is key to the module. | |
""" | |
key_flags_by_module = self.key_flags_by_module_dict() | |
# The list of key flags for the module named module_name. | |
key_flags = key_flags_by_module.setdefault(module_name, []) | |
# Add flag, but avoid duplicates. | |
if flag not in key_flags: | |
key_flags.append(flag) | |
def _flag_is_registered(self, flag_obj: Flag) -> bool: | |
"""Checks whether a Flag object is registered under long name or short name. | |
Args: | |
flag_obj: Flag, the Flag instance to check for. | |
Returns: | |
bool, True iff flag_obj is registered under long name or short name. | |
""" | |
flag_dict = self._flags() | |
# Check whether flag_obj is registered under its long name. | |
name = flag_obj.name | |
if flag_dict.get(name, None) == flag_obj: | |
return True | |
# Check whether flag_obj is registered under its short name. | |
short_name = flag_obj.short_name | |
if (short_name is not None and flag_dict.get(short_name, None) == flag_obj): | |
return True | |
return False | |
def _cleanup_unregistered_flag_from_module_dicts( | |
self, flag_obj: Flag | |
) -> None: | |
"""Cleans up unregistered flags from all module -> [flags] dictionaries. | |
If flag_obj is registered under either its long name or short name, it | |
won't be removed from the dictionaries. | |
Args: | |
flag_obj: Flag, the Flag instance to clean up for. | |
""" | |
if self._flag_is_registered(flag_obj): | |
return | |
for flags_by_module_dict in (self.flags_by_module_dict(), | |
self.flags_by_module_id_dict(), | |
self.key_flags_by_module_dict()): | |
for flags_in_module in flags_by_module_dict.values(): | |
# While (as opposed to if) takes care of multiple occurrences of a | |
# flag in the list for the same module. | |
while flag_obj in flags_in_module: | |
flags_in_module.remove(flag_obj) | |
def get_flags_for_module(self, module: Union[Text, Any]) -> List[Flag]: | |
"""Returns the list of flags defined by a module. | |
Args: | |
module: module|str, the module to get flags from. | |
Returns: | |
[Flag], a new list of Flag instances. Caller may update this list as | |
desired: none of those changes will affect the internals of this | |
FlagValue instance. | |
""" | |
if not isinstance(module, str): | |
module = module.__name__ | |
if module == '__main__': | |
module = sys.argv[0] | |
return list(self.flags_by_module_dict().get(module, [])) | |
def get_key_flags_for_module(self, module: Union[Text, Any]) -> List[Flag]: | |
"""Returns the list of key flags for a module. | |
Args: | |
module: module|str, the module to get key flags from. | |
Returns: | |
[Flag], a new list of Flag instances. Caller may update this list as | |
desired: none of those changes will affect the internals of this | |
FlagValue instance. | |
""" | |
if not isinstance(module, str): | |
module = module.__name__ | |
if module == '__main__': | |
module = sys.argv[0] | |
# Any flag is a key flag for the module that defined it. NOTE: | |
# key_flags is a fresh list: we can update it without affecting the | |
# internals of this FlagValues object. | |
key_flags = self.get_flags_for_module(module) | |
# Take into account flags explicitly declared as key for a module. | |
for flag in self.key_flags_by_module_dict().get(module, []): | |
if flag not in key_flags: | |
key_flags.append(flag) | |
return key_flags | |
# TODO(yileiyang): Restrict default to Optional[Text]. | |
def find_module_defining_flag( | |
self, flagname: Text, default: Optional[_T] = None | |
) -> Union[str, Optional[_T]]: | |
"""Return the name of the module defining this flag, or default. | |
Args: | |
flagname: str, name of the flag to lookup. | |
default: Value to return if flagname is not defined. Defaults to None. | |
Returns: | |
The name of the module which registered the flag with this name. | |
If no such module exists (i.e. no flag with this name exists), | |
we return default. | |
""" | |
registered_flag = self._flags().get(flagname) | |
if registered_flag is None: | |
return default | |
for module, flags in self.flags_by_module_dict().items(): | |
for flag in flags: | |
# It must compare the flag with the one in _flags. This is because a | |
# flag might be overridden only for its long name (or short name), | |
# and only its short name (or long name) is considered registered. | |
if (flag.name == registered_flag.name and | |
flag.short_name == registered_flag.short_name): | |
return module | |
return default | |
# TODO(yileiyang): Restrict default to Optional[Text]. | |
def find_module_id_defining_flag( | |
self, flagname: Text, default: Optional[_T] = None | |
) -> Union[int, Optional[_T]]: | |
"""Return the ID of the module defining this flag, or default. | |
Args: | |
flagname: str, name of the flag to lookup. | |
default: Value to return if flagname is not defined. Defaults to None. | |
Returns: | |
The ID of the module which registered the flag with this name. | |
If no such module exists (i.e. no flag with this name exists), | |
we return default. | |
""" | |
registered_flag = self._flags().get(flagname) | |
if registered_flag is None: | |
return default | |
for module_id, flags in self.flags_by_module_id_dict().items(): | |
for flag in flags: | |
# It must compare the flag with the one in _flags. This is because a | |
# flag might be overridden only for its long name (or short name), | |
# and only its short name (or long name) is considered registered. | |
if (flag.name == registered_flag.name and | |
flag.short_name == registered_flag.short_name): | |
return module_id | |
return default | |
def _register_unknown_flag_setter( | |
self, setter: Callable[[str, Any], None] | |
) -> None: | |
"""Allow set default values for undefined flags. | |
Args: | |
setter: Method(name, value) to call to __setattr__ an unknown flag. Must | |
raise NameError or ValueError for invalid name/value. | |
""" | |
self.__dict__['__set_unknown'] = setter | |
def _set_unknown_flag(self, name: str, value: _T) -> _T: | |
"""Returns value if setting flag |name| to |value| returned True. | |
Args: | |
name: str, name of the flag to set. | |
value: Value to set. | |
Returns: | |
Flag value on successful call. | |
Raises: | |
UnrecognizedFlagError | |
IllegalFlagValueError | |
""" | |
setter = self.__dict__['__set_unknown'] | |
if setter: | |
try: | |
setter(name, value) | |
return value | |
except (TypeError, ValueError): # Flag value is not valid. | |
raise _exceptions.IllegalFlagValueError( | |
'"{1}" is not valid for --{0}'.format(name, value)) | |
except NameError: # Flag name is not valid. | |
pass | |
raise _exceptions.UnrecognizedFlagError(name, value) | |
def append_flag_values(self, flag_values: 'FlagValues') -> None: | |
"""Appends flags registered in another FlagValues instance. | |
Args: | |
flag_values: FlagValues, the FlagValues instance from which to copy flags. | |
""" | |
for flag_name, flag in flag_values._flags().items(): # pylint: disable=protected-access | |
# Each flags with short_name appears here twice (once under its | |
# normal name, and again with its short name). To prevent | |
# problems (DuplicateFlagError) with double flag registration, we | |
# perform a check to make sure that the entry we're looking at is | |
# for its normal name. | |
if flag_name == flag.name: | |
try: | |
self[flag_name] = flag | |
except _exceptions.DuplicateFlagError: | |
raise _exceptions.DuplicateFlagError.from_flag( | |
flag_name, self, other_flag_values=flag_values) | |
def remove_flag_values( | |
self, flag_values: 'Union[FlagValues, Iterable[Text]]' | |
) -> None: | |
"""Remove flags that were previously appended from another FlagValues. | |
Args: | |
flag_values: FlagValues, the FlagValues instance containing flags to | |
remove. | |
""" | |
for flag_name in flag_values: | |
self.__delattr__(flag_name) | |
def __setitem__(self, name: Text, flag: Flag) -> None: | |
"""Registers a new flag variable.""" | |
fl = self._flags() | |
if not isinstance(flag, _flag.Flag): | |
raise _exceptions.IllegalFlagValueError( | |
f'Expect Flag instances, found type {type(flag)}. ' | |
"Maybe you didn't mean to use FlagValue.__setitem__?") | |
if not isinstance(name, str): | |
raise _exceptions.Error('Flag name must be a string') | |
if not name: | |
raise _exceptions.Error('Flag name cannot be empty') | |
if ' ' in name: | |
raise _exceptions.Error('Flag name cannot contain a space') | |
self._check_method_name_conflicts(name, flag) | |
if name in fl and not flag.allow_override and not fl[name].allow_override: | |
module, module_name = _helpers.get_calling_module_object_and_name() | |
if (self.find_module_defining_flag(name) == module_name and | |
id(module) != self.find_module_id_defining_flag(name)): | |
# If the flag has already been defined by a module with the same name, | |
# but a different ID, we can stop here because it indicates that the | |
# module is simply being imported a subsequent time. | |
return | |
raise _exceptions.DuplicateFlagError.from_flag(name, self) | |
# If a new flag overrides an old one, we need to cleanup the old flag's | |
# modules if it's not registered. | |
flags_to_cleanup = set() | |
short_name: str = flag.short_name # pytype: disable=annotation-type-mismatch | |
if short_name is not None: | |
if (short_name in fl and not flag.allow_override and | |
not fl[short_name].allow_override): | |
raise _exceptions.DuplicateFlagError.from_flag(short_name, self) | |
if short_name in fl and fl[short_name] != flag: | |
flags_to_cleanup.add(fl[short_name]) | |
fl[short_name] = flag | |
if (name not in fl # new flag | |
or fl[name].using_default_value or not flag.using_default_value): | |
if name in fl and fl[name] != flag: | |
flags_to_cleanup.add(fl[name]) | |
fl[name] = flag | |
for f in flags_to_cleanup: | |
self._cleanup_unregistered_flag_from_module_dicts(f) | |
def __dir__(self) -> List[Text]: | |
"""Returns list of names of all defined flags. | |
Useful for TAB-completion in ipython. | |
Returns: | |
[str], a list of names of all defined flags. | |
""" | |
return sorted(self.__dict__['__flags']) | |
def __getitem__(self, name: Text) -> Flag: | |
"""Returns the Flag object for the flag --name.""" | |
return self._flags()[name] | |
def _hide_flag(self, name): | |
"""Marks the flag --name as hidden.""" | |
self.__dict__['__hiddenflags'].add(name) | |
def __getattr__(self, name: Text) -> Any: | |
"""Retrieves the 'value' attribute of the flag --name.""" | |
fl = self._flags() | |
if name not in fl: | |
raise AttributeError(name) | |
if name in self.__dict__['__hiddenflags']: | |
raise AttributeError(name) | |
if self.__dict__['__flags_parsed'] or fl[name].present: | |
return fl[name].value | |
else: | |
raise _exceptions.UnparsedFlagAccessError( | |
'Trying to access flag --%s before flags were parsed.' % name) | |
def __setattr__(self, name: Text, value: _T) -> _T: | |
"""Sets the 'value' attribute of the flag --name.""" | |
self._set_attributes(**{name: value}) | |
return value | |
def _set_attributes(self, **attributes: Any) -> None: | |
"""Sets multiple flag values together, triggers validators afterwards.""" | |
fl = self._flags() | |
known_flag_vals = {} | |
known_flag_used_defaults = {} | |
try: | |
for name, value in attributes.items(): | |
if name in self.__dict__['__hiddenflags']: | |
raise AttributeError(name) | |
if name in fl: | |
orig = fl[name].value | |
fl[name].value = value | |
known_flag_vals[name] = orig | |
else: | |
self._set_unknown_flag(name, value) | |
for name in known_flag_vals: | |
self._assert_validators(fl[name].validators) | |
known_flag_used_defaults[name] = fl[name].using_default_value | |
fl[name].using_default_value = False | |
except: | |
for name, orig in known_flag_vals.items(): | |
fl[name].value = orig | |
for name, orig in known_flag_used_defaults.items(): | |
fl[name].using_default_value = orig | |
# NOTE: We do not attempt to undo unknown flag side effects because we | |
# cannot reliably undo the user-configured behavior. | |
raise | |
def validate_all_flags(self) -> None: | |
"""Verifies whether all flags pass validation. | |
Raises: | |
AttributeError: Raised if validators work with a non-existing flag. | |
IllegalFlagValueError: Raised if validation fails for at least one | |
validator. | |
""" | |
all_validators = set() | |
for flag in self._flags().values(): | |
all_validators.update(flag.validators) | |
self._assert_validators(all_validators) | |
def _assert_validators( | |
self, validators: Iterable[_validators_classes.Validator] | |
) -> None: | |
"""Asserts if all validators in the list are satisfied. | |
It asserts validators in the order they were created. | |
Args: | |
validators: Iterable(validators.Validator), validators to be verified. | |
Raises: | |
AttributeError: Raised if validators work with a non-existing flag. | |
IllegalFlagValueError: Raised if validation fails for at least one | |
validator. | |
""" | |
messages = [] | |
bad_flags = set() | |
for validator in sorted( | |
validators, key=lambda validator: validator.insertion_index): | |
try: | |
if isinstance(validator, _validators_classes.SingleFlagValidator): | |
if validator.flag_name in bad_flags: | |
continue | |
elif isinstance(validator, _validators_classes.MultiFlagsValidator): | |
if bad_flags & set(validator.flag_names): | |
continue | |
validator.verify(self) | |
except _exceptions.ValidationError as e: | |
if isinstance(validator, _validators_classes.SingleFlagValidator): | |
bad_flags.add(validator.flag_name) | |
elif isinstance(validator, _validators_classes.MultiFlagsValidator): | |
bad_flags.update(set(validator.flag_names)) | |
message = validator.print_flags_with_values(self) | |
messages.append('%s: %s' % (message, str(e))) | |
if messages: | |
raise _exceptions.IllegalFlagValueError('\n'.join(messages)) | |
def __delattr__(self, flag_name: Text) -> None: | |
"""Deletes a previously-defined flag from a flag object. | |
This method makes sure we can delete a flag by using | |
del FLAGS.<flag_name> | |
E.g., | |
flags.DEFINE_integer('foo', 1, 'Integer flag.') | |
del flags.FLAGS.foo | |
If a flag is also registered by its the other name (long name or short | |
name), the other name won't be deleted. | |
Args: | |
flag_name: str, the name of the flag to be deleted. | |
Raises: | |
AttributeError: Raised when there is no registered flag named flag_name. | |
""" | |
fl = self._flags() | |
if flag_name not in fl: | |
raise AttributeError(flag_name) | |
flag_obj = fl[flag_name] | |
del fl[flag_name] | |
self._cleanup_unregistered_flag_from_module_dicts(flag_obj) | |
def set_default(self, name: Text, value: Any) -> None: | |
"""Changes the default value of the named flag object. | |
The flag's current value is also updated if the flag is currently using | |
the default value, i.e. not specified in the command line, and not set | |
by FLAGS.name = value. | |
Args: | |
name: str, the name of the flag to modify. | |
value: The new default value. | |
Raises: | |
UnrecognizedFlagError: Raised when there is no registered flag named name. | |
IllegalFlagValueError: Raised when value is not valid. | |
""" | |
fl = self._flags() | |
if name not in fl: | |
self._set_unknown_flag(name, value) | |
return | |
fl[name]._set_default(value) # pylint: disable=protected-access | |
self._assert_validators(fl[name].validators) | |
def __contains__(self, name: Text) -> bool: | |
"""Returns True if name is a value (flag) in the dict.""" | |
return name in self._flags() | |
def __len__(self) -> int: | |
return len(self.__dict__['__flags']) | |
def __iter__(self) -> Iterator[Text]: | |
return iter(self._flags()) | |
def __call__( | |
self, argv: Sequence[Text], known_only: bool = False | |
) -> List[Text]: | |
"""Parses flags from argv; stores parsed flags into this FlagValues object. | |
All unparsed arguments are returned. | |
Args: | |
argv: a tuple/list of strings. | |
known_only: bool, if True, parse and remove known flags; return the rest | |
untouched. Unknown flags specified by --undefok are not returned. | |
Returns: | |
The list of arguments not parsed as options, including argv[0]. | |
Raises: | |
Error: Raised on any parsing error. | |
TypeError: Raised on passing wrong type of arguments. | |
ValueError: Raised on flag value parsing error. | |
""" | |
if isinstance(argv, (str, bytes)): | |
raise TypeError( | |
'argv should be a tuple/list of strings, not bytes or string.') | |
if not argv: | |
raise ValueError( | |
'argv cannot be an empty list, and must contain the program name as ' | |
'the first element.') | |
# This pre parses the argv list for --flagfile=<> options. | |
program_name = argv[0] | |
args = self.read_flags_from_files(argv[1:], force_gnu=False) | |
# Parse the arguments. | |
unknown_flags, unparsed_args = self._parse_args(args, known_only) | |
# Handle unknown flags by raising UnrecognizedFlagError. | |
# Note some users depend on us raising this particular error. | |
for name, value in unknown_flags: | |
suggestions = _helpers.get_flag_suggestions(name, list(self)) | |
raise _exceptions.UnrecognizedFlagError( | |
name, value, suggestions=suggestions) | |
self.mark_as_parsed() | |
self.validate_all_flags() | |
return [program_name] + unparsed_args | |
def __getstate__(self) -> Any: | |
raise TypeError("can't pickle FlagValues") | |
def __copy__(self) -> Any: | |
raise TypeError('FlagValues does not support shallow copies. ' | |
'Use absl.testing.flagsaver or copy.deepcopy instead.') | |
def __deepcopy__(self, memo) -> Any: | |
result = object.__new__(type(self)) | |
result.__dict__.update(copy.deepcopy(self.__dict__, memo)) | |
return result | |
def _set_is_retired_flag_func(self, is_retired_flag_func): | |
"""Sets a function for checking retired flags. | |
Do not use it. This is a private absl API used to check retired flags | |
registered by the absl C++ flags library. | |
Args: | |
is_retired_flag_func: Callable(str) -> (bool, bool), a function takes flag | |
name as parameter, returns a tuple (is_retired, type_is_bool). | |
""" | |
self.__dict__['__is_retired_flag_func'] = is_retired_flag_func | |
def _parse_args( | |
self, args: List[str], known_only: bool | |
) -> Tuple[List[Tuple[Optional[str], Any]], List[str]]: | |
"""Helper function to do the main argument parsing. | |
This function goes through args and does the bulk of the flag parsing. | |
It will find the corresponding flag in our flag dictionary, and call its | |
.parse() method on the flag value. | |
Args: | |
args: [str], a list of strings with the arguments to parse. | |
known_only: bool, if True, parse and remove known flags; return the rest | |
untouched. Unknown flags specified by --undefok are not returned. | |
Returns: | |
A tuple with the following: | |
unknown_flags: List of (flag name, arg) for flags we don't know about. | |
unparsed_args: List of arguments we did not parse. | |
Raises: | |
Error: Raised on any parsing error. | |
ValueError: Raised on flag value parsing error. | |
""" | |
unparsed_names_and_args = [] # A list of (flag name or None, arg). | |
undefok = set() | |
retired_flag_func = self.__dict__['__is_retired_flag_func'] | |
flag_dict = self._flags() | |
args = iter(args) | |
for arg in args: | |
value = None | |
def get_value(): | |
# pylint: disable=cell-var-from-loop | |
try: | |
return next(args) if value is None else value | |
except StopIteration: | |
raise _exceptions.Error('Missing value for flag ' + arg) # pylint: disable=undefined-loop-variable | |
if not arg.startswith('-'): | |
# A non-argument: default is break, GNU is skip. | |
unparsed_names_and_args.append((None, arg)) | |
if self.is_gnu_getopt(): | |
continue | |
else: | |
break | |
if arg == '--': | |
if known_only: | |
unparsed_names_and_args.append((None, arg)) | |
break | |
# At this point, arg must start with '-'. | |
if arg.startswith('--'): | |
arg_without_dashes = arg[2:] | |
else: | |
arg_without_dashes = arg[1:] | |
if '=' in arg_without_dashes: | |
name, value = arg_without_dashes.split('=', 1) | |
else: | |
name, value = arg_without_dashes, None | |
if not name: | |
# The argument is all dashes (including one dash). | |
unparsed_names_and_args.append((None, arg)) | |
if self.is_gnu_getopt(): | |
continue | |
else: | |
break | |
# --undefok is a special case. | |
if name == 'undefok': | |
value = get_value() | |
undefok.update(v.strip() for v in value.split(',')) | |
undefok.update('no' + v.strip() for v in value.split(',')) | |
continue | |
flag = flag_dict.get(name) | |
if flag is not None: | |
if flag.boolean and value is None: | |
value = 'true' | |
else: | |
value = get_value() | |
elif name.startswith('no') and len(name) > 2: | |
# Boolean flags can take the form of --noflag, with no value. | |
noflag = flag_dict.get(name[2:]) | |
if noflag is not None and noflag.boolean: | |
if value is not None: | |
raise ValueError(arg + ' does not take an argument') | |
flag = noflag | |
value = 'false' | |
if retired_flag_func and flag is None: | |
is_retired, is_bool = retired_flag_func(name) | |
# If we didn't recognize that flag, but it starts with | |
# "no" then maybe it was a boolean flag specified in the | |
# --nofoo form. | |
if not is_retired and name.startswith('no'): | |
is_retired, is_bool = retired_flag_func(name[2:]) | |
is_retired = is_retired and is_bool | |
if is_retired: | |
if not is_bool and value is None: | |
# This happens when a non-bool retired flag is specified | |
# in format of "--flag value". | |
get_value() | |
logging.error( | |
'Flag "%s" is retired and should no longer be specified. See ' | |
'https://abseil.io/tips/90.', | |
name, | |
) | |
continue | |
if flag is not None: | |
# LINT.IfChange | |
flag.parse(value) | |
flag.using_default_value = False | |
# LINT.ThenChange(../testing/flagsaver.py:flag_override_parsing) | |
else: | |
unparsed_names_and_args.append((name, arg)) | |
unknown_flags = [] | |
unparsed_args = [] | |
for name, arg in unparsed_names_and_args: | |
if name is None: | |
# Positional arguments. | |
unparsed_args.append(arg) | |
elif name in undefok: | |
# Remove undefok flags. | |
continue | |
else: | |
# This is an unknown flag. | |
if known_only: | |
unparsed_args.append(arg) | |
else: | |
unknown_flags.append((name, arg)) | |
unparsed_args.extend(list(args)) | |
return unknown_flags, unparsed_args | |
def is_parsed(self) -> bool: | |
"""Returns whether flags were parsed.""" | |
return self.__dict__['__flags_parsed'] | |
def mark_as_parsed(self) -> None: | |
"""Explicitly marks flags as parsed. | |
Use this when the caller knows that this FlagValues has been parsed as if | |
a ``__call__()`` invocation has happened. This is only a public method for | |
use by things like appcommands which do additional command like parsing. | |
""" | |
self.__dict__['__flags_parsed'] = True | |
def unparse_flags(self) -> None: | |
"""Unparses all flags to the point before any FLAGS(argv) was called.""" | |
for f in self._flags().values(): | |
f.unparse() | |
# We log this message before marking flags as unparsed to avoid a | |
# problem when the logging library causes flags access. | |
logging.info('unparse_flags() called; flags access will now raise errors.') | |
self.__dict__['__flags_parsed'] = False | |
self.__dict__['__unparse_flags_called'] = True | |
def flag_values_dict(self) -> Dict[Text, Any]: | |
"""Returns a dictionary that maps flag names to flag values.""" | |
return {name: flag.value for name, flag in self._flags().items()} | |
def __str__(self): | |
"""Returns a help string for all known flags.""" | |
return self.get_help() | |
def get_help( | |
self, prefix: Text = '', include_special_flags: bool = True | |
) -> Text: | |
"""Returns a help string for all known flags. | |
Args: | |
prefix: str, per-line output prefix. | |
include_special_flags: bool, whether to include description of | |
SPECIAL_FLAGS, i.e. --flagfile and --undefok. | |
Returns: | |
str, formatted help message. | |
""" | |
flags_by_module = self.flags_by_module_dict() | |
if flags_by_module: | |
modules = sorted(flags_by_module) | |
# Print the help for the main module first, if possible. | |
main_module = sys.argv[0] | |
if main_module in modules: | |
modules.remove(main_module) | |
modules = [main_module] + modules | |
return self._get_help_for_modules(modules, prefix, include_special_flags) | |
else: | |
output_lines = [] | |
# Just print one long list of flags. | |
values = self._flags().values() | |
if include_special_flags: | |
values = itertools.chain( | |
values, _helpers.SPECIAL_FLAGS._flags().values() # pylint: disable=protected-access # pytype: disable=attribute-error | |
) | |
self._render_flag_list(values, output_lines, prefix) | |
return '\n'.join(output_lines) | |
def _get_help_for_modules(self, modules, prefix, include_special_flags): | |
"""Returns the help string for a list of modules. | |
Private to absl.flags package. | |
Args: | |
modules: List[str], a list of modules to get the help string for. | |
prefix: str, a string that is prepended to each generated help line. | |
include_special_flags: bool, whether to include description of | |
SPECIAL_FLAGS, i.e. --flagfile and --undefok. | |
""" | |
output_lines = [] | |
for module in modules: | |
self._render_our_module_flags(module, output_lines, prefix) | |
if include_special_flags: | |
self._render_module_flags( | |
'absl.flags', | |
_helpers.SPECIAL_FLAGS._flags().values(), # pylint: disable=protected-access # pytype: disable=attribute-error | |
output_lines, | |
prefix, | |
) | |
return '\n'.join(output_lines) | |
def _render_module_flags(self, module, flags, output_lines, prefix=''): | |
"""Returns a help string for a given module.""" | |
if not isinstance(module, str): | |
module = module.__name__ | |
output_lines.append('\n%s%s:' % (prefix, module)) | |
self._render_flag_list(flags, output_lines, prefix + ' ') | |
def _render_our_module_flags(self, module, output_lines, prefix=''): | |
"""Returns a help string for a given module.""" | |
flags = self.get_flags_for_module(module) | |
if flags: | |
self._render_module_flags(module, flags, output_lines, prefix) | |
def _render_our_module_key_flags(self, module, output_lines, prefix=''): | |
"""Returns a help string for the key flags of a given module. | |
Args: | |
module: module|str, the module to render key flags for. | |
output_lines: [str], a list of strings. The generated help message lines | |
will be appended to this list. | |
prefix: str, a string that is prepended to each generated help line. | |
""" | |
key_flags = self.get_key_flags_for_module(module) | |
if key_flags: | |
self._render_module_flags(module, key_flags, output_lines, prefix) | |
def module_help(self, module: Any) -> Text: | |
"""Describes the key flags of a module. | |
Args: | |
module: module|str, the module to describe the key flags for. | |
Returns: | |
str, describing the key flags of a module. | |
""" | |
helplist = [] | |
self._render_our_module_key_flags(module, helplist) | |
return '\n'.join(helplist) | |
def main_module_help(self) -> Text: | |
"""Describes the key flags of the main module. | |
Returns: | |
str, describing the key flags of the main module. | |
""" | |
return self.module_help(sys.argv[0]) | |
def _render_flag_list(self, flaglist, output_lines, prefix=' '): | |
fl = self._flags() | |
special_fl = _helpers.SPECIAL_FLAGS._flags() # pylint: disable=protected-access # pytype: disable=attribute-error | |
flaglist = [(flag.name, flag) for flag in flaglist] | |
flaglist.sort() | |
flagset = {} | |
for (name, flag) in flaglist: | |
# It's possible this flag got deleted or overridden since being | |
# registered in the per-module flaglist. Check now against the | |
# canonical source of current flag information, the _flags. | |
if fl.get(name, None) != flag and special_fl.get(name, None) != flag: | |
# a different flag is using this name now | |
continue | |
# only print help once | |
if flag in flagset: | |
continue | |
flagset[flag] = 1 | |
flaghelp = '' | |
if flag.short_name: | |
flaghelp += '-%s,' % flag.short_name | |
if flag.boolean: | |
flaghelp += '--[no]%s:' % flag.name | |
else: | |
flaghelp += '--%s:' % flag.name | |
flaghelp += ' ' | |
if flag.help: | |
flaghelp += flag.help | |
flaghelp = _helpers.text_wrap( | |
flaghelp, indent=prefix + ' ', firstline_indent=prefix) | |
if flag.default_as_str: | |
flaghelp += '\n' | |
flaghelp += _helpers.text_wrap( | |
'(default: %s)' % flag.default_as_str, indent=prefix + ' ') | |
if flag.parser.syntactic_help: | |
flaghelp += '\n' | |
flaghelp += _helpers.text_wrap( | |
'(%s)' % flag.parser.syntactic_help, indent=prefix + ' ') | |
output_lines.append(flaghelp) | |
def get_flag_value(self, name: Text, default: Any) -> Any: # pylint: disable=invalid-name | |
"""Returns the value of a flag (if not None) or a default value. | |
Args: | |
name: str, the name of a flag. | |
default: Default value to use if the flag value is None. | |
Returns: | |
Requested flag value or default. | |
""" | |
value = self.__getattr__(name) | |
if value is not None: # Can't do if not value, b/c value might be '0' or "" | |
return value | |
else: | |
return default | |
def _is_flag_file_directive(self, flag_string): | |
"""Checks whether flag_string contain a --flagfile=<foo> directive.""" | |
if isinstance(flag_string, str): | |
if flag_string.startswith('--flagfile='): | |
return 1 | |
elif flag_string == '--flagfile': | |
return 1 | |
elif flag_string.startswith('-flagfile='): | |
return 1 | |
elif flag_string == '-flagfile': | |
return 1 | |
else: | |
return 0 | |
return 0 | |
def _extract_filename(self, flagfile_str): | |
"""Returns filename from a flagfile_str of form -[-]flagfile=filename. | |
The cases of --flagfile foo and -flagfile foo shouldn't be hitting | |
this function, as they are dealt with in the level above this | |
function. | |
Args: | |
flagfile_str: str, the flagfile string. | |
Returns: | |
str, the filename from a flagfile_str of form -[-]flagfile=filename. | |
Raises: | |
Error: Raised when illegal --flagfile is provided. | |
""" | |
if flagfile_str.startswith('--flagfile='): | |
return os.path.expanduser((flagfile_str[(len('--flagfile=')):]).strip()) | |
elif flagfile_str.startswith('-flagfile='): | |
return os.path.expanduser((flagfile_str[(len('-flagfile=')):]).strip()) | |
else: | |
raise _exceptions.Error('Hit illegal --flagfile type: %s' % flagfile_str) | |
def _get_flag_file_lines(self, filename, parsed_file_stack=None): | |
"""Returns the useful (!=comments, etc) lines from a file with flags. | |
Args: | |
filename: str, the name of the flag file. | |
parsed_file_stack: [str], a list of the names of the files that we have | |
recursively encountered at the current depth. MUTATED BY THIS FUNCTION | |
(but the original value is preserved upon successfully returning from | |
function call). | |
Returns: | |
List of strings. See the note below. | |
NOTE(springer): This function checks for a nested --flagfile=<foo> | |
tag and handles the lower file recursively. It returns a list of | |
all the lines that _could_ contain command flags. This is | |
EVERYTHING except whitespace lines and comments (lines starting | |
with '#' or '//'). | |
""" | |
# For consistency with the cpp version, ignore empty values. | |
if not filename: | |
return [] | |
if parsed_file_stack is None: | |
parsed_file_stack = [] | |
# We do a little safety check for reparsing a file we've already encountered | |
# at a previous depth. | |
if filename in parsed_file_stack: | |
sys.stderr.write('Warning: Hit circular flagfile dependency. Ignoring' | |
' flagfile: %s\n' % (filename,)) | |
return [] | |
else: | |
parsed_file_stack.append(filename) | |
line_list = [] # All line from flagfile. | |
flag_line_list = [] # Subset of lines w/o comments, blanks, flagfile= tags. | |
try: | |
file_obj = open(filename, 'r') | |
except IOError as e_msg: | |
raise _exceptions.CantOpenFlagFileError( | |
'ERROR:: Unable to open flagfile: %s' % e_msg) | |
with file_obj: | |
line_list = file_obj.readlines() | |
# This is where we check each line in the file we just read. | |
for line in line_list: | |
if line.isspace(): | |
pass | |
# Checks for comment (a line that starts with '#'). | |
elif line.startswith('#') or line.startswith('//'): | |
pass | |
# Checks for a nested "--flagfile=<bar>" flag in the current file. | |
# If we find one, recursively parse down into that file. | |
elif self._is_flag_file_directive(line): | |
sub_filename = self._extract_filename(line) | |
included_flags = self._get_flag_file_lines( | |
sub_filename, parsed_file_stack=parsed_file_stack) | |
flag_line_list.extend(included_flags) | |
else: | |
# Any line that's not a comment or a nested flagfile should get | |
# copied into 2nd position. This leaves earlier arguments | |
# further back in the list, thus giving them higher priority. | |
flag_line_list.append(line.strip()) | |
parsed_file_stack.pop() | |
return flag_line_list | |
def read_flags_from_files( | |
self, argv: Sequence[Text], force_gnu: bool = True | |
) -> List[Text]: | |
"""Processes command line args, but also allow args to be read from file. | |
Args: | |
argv: [str], a list of strings, usually sys.argv[1:], which may contain | |
one or more flagfile directives of the form --flagfile="./filename". | |
Note that the name of the program (sys.argv[0]) should be omitted. | |
force_gnu: bool, if False, --flagfile parsing obeys the | |
FLAGS.is_gnu_getopt() value. If True, ignore the value and always follow | |
gnu_getopt semantics. | |
Returns: | |
A new list which has the original list combined with what we read | |
from any flagfile(s). | |
Raises: | |
IllegalFlagValueError: Raised when --flagfile is provided with no | |
argument. | |
This function is called by FLAGS(argv). | |
It scans the input list for a flag that looks like: | |
--flagfile=<somefile>. Then it opens <somefile>, reads all valid key | |
and value pairs and inserts them into the input list in exactly the | |
place where the --flagfile arg is found. | |
Note that your application's flags are still defined the usual way | |
using absl.flags DEFINE_flag() type functions. | |
Notes (assuming we're getting a commandline of some sort as our input): | |
* For duplicate flags, the last one we hit should "win". | |
* Since flags that appear later win, a flagfile's settings can be "weak" | |
if the --flagfile comes at the beginning of the argument sequence, | |
and it can be "strong" if the --flagfile comes at the end. | |
* A further "--flagfile=<otherfile.cfg>" CAN be nested in a flagfile. | |
It will be expanded in exactly the spot where it is found. | |
* In a flagfile, a line beginning with # or // is a comment. | |
* Entirely blank lines _should_ be ignored. | |
""" | |
rest_of_args = argv | |
new_argv = [] | |
while rest_of_args: | |
current_arg = rest_of_args[0] | |
rest_of_args = rest_of_args[1:] | |
if self._is_flag_file_directive(current_arg): | |
# This handles the case of -(-)flagfile foo. In this case the | |
# next arg really is part of this one. | |
if current_arg == '--flagfile' or current_arg == '-flagfile': | |
if not rest_of_args: | |
raise _exceptions.IllegalFlagValueError( | |
'--flagfile with no argument') | |
flag_filename = os.path.expanduser(rest_of_args[0]) | |
rest_of_args = rest_of_args[1:] | |
else: | |
# This handles the case of (-)-flagfile=foo. | |
flag_filename = self._extract_filename(current_arg) | |
new_argv.extend(self._get_flag_file_lines(flag_filename)) | |
else: | |
new_argv.append(current_arg) | |
# Stop parsing after '--', like getopt and gnu_getopt. | |
if current_arg == '--': | |
break | |
# Stop parsing after a non-flag, like getopt. | |
if not current_arg.startswith('-'): | |
if not force_gnu and not self.__dict__['__use_gnu_getopt']: | |
break | |
else: | |
if ('=' not in current_arg and rest_of_args and | |
not rest_of_args[0].startswith('-')): | |
# If this is an occurrence of a legitimate --x y, skip the value | |
# so that it won't be mistaken for a standalone arg. | |
fl = self._flags() | |
name = current_arg.lstrip('-') | |
if name in fl and not fl[name].boolean: | |
current_arg = rest_of_args[0] | |
rest_of_args = rest_of_args[1:] | |
new_argv.append(current_arg) | |
if rest_of_args: | |
new_argv.extend(rest_of_args) | |
return new_argv | |
def flags_into_string(self) -> Text: | |
"""Returns a string with the flags assignments from this FlagValues object. | |
This function ignores flags whose value is None. Each flag | |
assignment is separated by a newline. | |
NOTE: MUST mirror the behavior of the C++ CommandlineFlagsIntoString | |
from https://github.com/gflags/gflags. | |
Returns: | |
str, the string with the flags assignments from this FlagValues object. | |
The flags are ordered by (module_name, flag_name). | |
""" | |
module_flags = sorted(self.flags_by_module_dict().items()) | |
s = '' | |
for unused_module_name, flags in module_flags: | |
flags = sorted(flags, key=lambda f: f.name) | |
for flag in flags: | |
if flag.value is not None: | |
s += flag.serialize() + '\n' | |
return s | |
def append_flags_into_file(self, filename: Text) -> None: | |
"""Appends all flags assignments from this FlagInfo object to a file. | |
Output will be in the format of a flagfile. | |
NOTE: MUST mirror the behavior of the C++ AppendFlagsIntoFile | |
from https://github.com/gflags/gflags. | |
Args: | |
filename: str, name of the file. | |
""" | |
with open(filename, 'a') as out_file: | |
out_file.write(self.flags_into_string()) | |
def write_help_in_xml_format(self, outfile: Optional[TextIO] = None) -> None: | |
"""Outputs flag documentation in XML format. | |
NOTE: We use element names that are consistent with those used by | |
the C++ command-line flag library, from | |
https://github.com/gflags/gflags. | |
We also use a few new elements (e.g., <key>), but we do not | |
interfere / overlap with existing XML elements used by the C++ | |
library. Please maintain this consistency. | |
Args: | |
outfile: File object we write to. Default None means sys.stdout. | |
""" | |
doc = minidom.Document() | |
all_flag = doc.createElement('AllFlags') | |
doc.appendChild(all_flag) | |
all_flag.appendChild( | |
_helpers.create_xml_dom_element(doc, 'program', | |
os.path.basename(sys.argv[0]))) | |
usage_doc = sys.modules['__main__'].__doc__ | |
if not usage_doc: | |
usage_doc = '\nUSAGE: %s [flags]\n' % sys.argv[0] | |
else: | |
usage_doc = usage_doc.replace('%s', sys.argv[0]) | |
all_flag.appendChild( | |
_helpers.create_xml_dom_element(doc, 'usage', usage_doc)) | |
# Get list of key flags for the main module. | |
key_flags = self.get_key_flags_for_module(sys.argv[0]) | |
# Sort flags by declaring module name and next by flag name. | |
flags_by_module = self.flags_by_module_dict() | |
all_module_names = list(flags_by_module.keys()) | |
all_module_names.sort() | |
for module_name in all_module_names: | |
flag_list = [(f.name, f) for f in flags_by_module[module_name]] | |
flag_list.sort() | |
for unused_flag_name, flag in flag_list: | |
is_key = flag in key_flags | |
all_flag.appendChild( | |
flag._create_xml_dom_element( # pylint: disable=protected-access | |
doc, | |
module_name, | |
is_key=is_key)) | |
outfile = outfile or sys.stdout | |
outfile.write( | |
doc.toprettyxml(indent=' ', encoding='utf-8').decode('utf-8')) | |
outfile.flush() | |
def _check_method_name_conflicts(self, name: str, flag: Flag): | |
if flag.allow_using_method_names: | |
return | |
short_name = flag.short_name | |
flag_names = {name} if short_name is None else {name, short_name} | |
for flag_name in flag_names: | |
if flag_name in self.__dict__['__banned_flag_names']: | |
raise _exceptions.FlagNameConflictsWithMethodError( | |
'Cannot define a flag named "{name}". It conflicts with a method ' | |
'on class "{class_name}". To allow defining it, use ' | |
'allow_using_method_names and access the flag value with ' | |
"FLAGS['{name}'].value. FLAGS.{name} returns the method, " | |
'not the flag value.'.format( | |
name=flag_name, class_name=type(self).__name__)) | |
FLAGS = FlagValues() | |
class FlagHolder(Generic[_T]): | |
"""Holds a defined flag. | |
This facilitates a cleaner api around global state. Instead of:: | |
flags.DEFINE_integer('foo', ...) | |
flags.DEFINE_integer('bar', ...) | |
def method(): | |
# prints parsed value of 'bar' flag | |
print(flags.FLAGS.foo) | |
# runtime error due to typo or possibly bad coding style. | |
print(flags.FLAGS.baz) | |
it encourages code like:: | |
_FOO_FLAG = flags.DEFINE_integer('foo', ...) | |
_BAR_FLAG = flags.DEFINE_integer('bar', ...) | |
def method(): | |
print(_FOO_FLAG.value) | |
print(_BAR_FLAG.value) | |
since the name of the flag appears only once in the source code. | |
""" | |
value: _T | |
def __init__( | |
self, | |
flag_values: FlagValues, | |
flag: Flag[_T], | |
ensure_non_none_value: bool = False, | |
): | |
"""Constructs a FlagHolder instance providing typesafe access to flag. | |
Args: | |
flag_values: The container the flag is registered to. | |
flag: The flag object for this flag. | |
ensure_non_none_value: Is the value of the flag allowed to be None. | |
""" | |
self._flagvalues = flag_values | |
# We take the entire flag object, but only keep the name. Why? | |
# - We want FlagHolder[T] to be generic container | |
# - flag_values contains all flags, so has no reference to T. | |
# - typecheckers don't like to see a generic class where none of the ctor | |
# arguments refer to the generic type. | |
self._name = flag.name | |
# We intentionally do NOT check if the default value is None. | |
# This allows future use of this for "required flags with None default" | |
self._ensure_non_none_value = ensure_non_none_value | |
def __eq__(self, other): | |
raise TypeError( | |
"unsupported operand type(s) for ==: '{0}' and '{1}' " | |
"(did you mean to use '{0}.value' instead?)".format( | |
type(self).__name__, type(other).__name__)) | |
def __bool__(self): | |
raise TypeError( | |
"bool() not supported for instances of type '{0}' " | |
"(did you mean to use '{0}.value' instead?)".format( | |
type(self).__name__)) | |
__nonzero__ = __bool__ | |
def name(self) -> Text: | |
return self._name | |
def value(self) -> _T: | |
"""Returns the value of the flag. | |
If ``_ensure_non_none_value`` is ``True``, then return value is not | |
``None``. | |
Raises: | |
UnparsedFlagAccessError: if flag parsing has not finished. | |
IllegalFlagValueError: if value is None unexpectedly. | |
""" | |
val = getattr(self._flagvalues, self._name) | |
if self._ensure_non_none_value and val is None: | |
raise _exceptions.IllegalFlagValueError( | |
'Unexpected None value for flag %s' % self._name) | |
return val | |
def default(self) -> _T: | |
"""Returns the default value of the flag.""" | |
return self._flagvalues[self._name].default | |
def present(self) -> bool: | |
"""Returns True if the flag was parsed from command-line flags.""" | |
return bool(self._flagvalues[self._name].present) | |
def serialize(self) -> Text: | |
"""Returns a serialized representation of the flag.""" | |
return self._flagvalues[self._name].serialize() | |
def resolve_flag_ref( | |
flag_ref: Union[str, FlagHolder], flag_values: FlagValues | |
) -> Tuple[str, FlagValues]: | |
"""Helper to validate and resolve a flag reference argument.""" | |
if isinstance(flag_ref, FlagHolder): | |
new_flag_values = flag_ref._flagvalues # pylint: disable=protected-access | |
if flag_values != FLAGS and flag_values != new_flag_values: | |
raise ValueError( | |
'flag_values must not be customized when operating on a FlagHolder') | |
return flag_ref.name, new_flag_values | |
return flag_ref, flag_values | |
def resolve_flag_refs( | |
flag_refs: Sequence[Union[str, FlagHolder]], flag_values: FlagValues | |
) -> Tuple[List[str], FlagValues]: | |
"""Helper to validate and resolve flag reference list arguments.""" | |
fv = None | |
names = [] | |
for ref in flag_refs: | |
if isinstance(ref, FlagHolder): | |
newfv = ref._flagvalues # pylint: disable=protected-access | |
name = ref.name | |
else: | |
newfv = flag_values | |
name = ref | |
if fv and fv != newfv: | |
raise ValueError( | |
'multiple FlagValues instances used in invocation. ' | |
'FlagHolders must be registered to the same FlagValues instance as ' | |
'do flag names, if provided.') | |
fv = newfv | |
names.append(name) | |
return names, fv | |