How to use the typing.Set function in typing
To help you get started, we’ve selected a few typing examples, based on popular ways it is used in public projects.
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icon-project / icon-service / tests / prep / test_prep_container.py View on Github 
def test_get_by_index(create_prep_container):
size = 10
preps = create_prep_container(size)
old_preps: Set['PRep'] = set()
# Index
for i in range(size):
prep: 'PRep' = preps.get_by_index(i)
assert prep is not None
assert preps not in old_preps
old_preps.add(prep)
prep = preps.get_by_index(size)
assert prep is None
# Reverse index
for i in range(1, size + 1):
prep = preps.get_by_index(-i)
assert prep is not None
assert prep == preps.get_by_index(size - i)('aggressive', int),
('diff', bool),
('exclude', typing.Set[typing.List[str]]),
('experimental', bool),
('global_config', typing.Optional[typing.List[str]]),
('ignore', str),
('ignore_local_config', bool),
('in_place', bool),
('indent_size', int),
('jobs', int),
('line_range', typing.Optional[typing.Sequence]),
('list_fixes', bool),
('max_line_length', int),
('pep8_passes', int),
('recursive', bool),
('select', typing.Set[str]),
('verbose', int),
('hang_closing', bool),
])
def autopep_files(files, max_line_length):
# type: (typing.List[str], int) -> None
files = files[:]
options = _AutopepOptions(aggressive=1, # pylint:disable=not-callable
diff=False,
exclude=set(),
experimental=False,
global_config=None,
ignore='',
ignore_local_config=False,
in_place=True,softmax: bool,
epsilon: float,
epsilon_half_life: float,
tol: float,
fa_spec: FuncApproxSpec
) -> None:
self.mdp_rep: MDPRepForADP = mdp_rep_for_adp
self.num_samples: int = num_samples
self.softmax: bool = softmax
self.epsilon_func: Callable[[int], float] = get_epsilon_decay_func(
epsilon,
epsilon_half_life
)
self.tol: float = tol
self.fa: FuncApproxBase = fa_spec.get_vf_func_approx_obj()
self.state_action_func: Callable[[S], Set[A]] =\
self.mdp_rep.state_action_funcfrom .typing_api import (
is_closed_python_dict_type,
is_closed_python_set_type,
is_closed_python_tuple_type,
)
from .wrapping import WrappingType
MAGIC_RUNTIME_TYPE_NAME = '__runtime_type'
def is_runtime_type_decorated_klass(klass):
check.type_param(klass, 'klass')
return hasattr(klass, MAGIC_RUNTIME_TYPE_NAME)
OPEN_CONTAINER_TYPES = {dict, Dict, typing.Dict, tuple, typing.Tuple, set, typing.Set}
def check_dagster_type_param(dagster_type, param_name, base_type):
# Cannot check base_type because of circular references and no fwd declarations
if dagster_type is None:
return dagster_type
if dagster_type in OPEN_CONTAINER_TYPES:
return dagster_type
if is_closed_python_dict_type(dagster_type):
return dagster_type
if is_closed_python_tuple_type(dagster_type):
return dagster_type
if is_closed_python_set_type(dagster_type):
return dagster_type
if BuiltinEnum.contains(dagster_type):def __init__(self, project: domain.Project) -> None:
# Use None as name to keep the history consistent of metrics that have the report as subject:
super().__init__(name='None')
self.__project = project
self.__products = sorted(project.products(), key=lambda product: (product.name(), product.short_name()))
self.__sections: Sequence[Section] = []
self.__metrics: List[domain.Metric] = []
self.__requirements: Set[Type[domain.Requirement]] = set()"""
origin = type_.__origin__
if not origin: # pragma: no cover # this really should be impossible
raise ConversionError(f"Don't know how to convert type {type_!r} ({field})")
# NOTE: This is a little clumsy, but working with generic types is; it's hard to
# decide whether the origin type is a subtype of, say, T.Iterable since typical
# Python functions like `isinstance()` don't work
if origin == T.Union:
return convert_union_type(
type_, field, registry, parent_type=parent_type, model=model
)
elif origin in (
T.Tuple,
T.List,
T.Set,
T.Collection,
T.Iterable,
list,
set,
) or issubclass(origin, collections.abc.Sequence):
# TODO: find a better way of divining that the origin is sequence-like
inner_types = getattr(type_, "__args__", [])
if not inner_types: # pragma: no cover # this really should be impossible
raise ConversionError(
f"Don't know how to handle {type_} (generic: {origin})"
)
# Of course, we can only return a homogeneous type here, so we pick the
# first of the wrapped types
inner_type = inner_types[0]
return List(
find_graphene_type(def update_accounts_positions(accounts: Dict[str, Account], q: queue.Queue):
"""
This function runs in a separate thread. It receives requests in the
queue from the main thread. It places orders on the exchange so that
each "pending pair" transitions to the position indicated by a specific
tweet.
"""
pairs: Dict[str, Set[str]] = {}
new_pairs: Dict[str, Set[str]] = {}
log.info("Exchange thread starting...")
while True:
while True:
block = not pairs and not new_pairs
try:
if block:
log.debug("Exchange thread blocked until orders arrive...")
account_name, product_id = q.get(block)
except queue.Empty:
break
else:
if account_name not in new_pairs:
new_pairs[account_name] = set()
new_pairs[account_name].add(product_id)def get_nonterminal_productions(self) -> Dict[str, List[str]]:
"""
Induces a grammar from the defined collection of predicates in this language and returns
all productions in that grammar, keyed by the non-terminal they are expanding.
This includes terminal productions implied by each predicate as well as productions for the
`return type` of each defined predicate. For example, defining a "multiply" predicate adds
a " -> multiply" terminal production to the grammar, and `also` a "int ->
[, int, int]" non-terminal production, because I can use the "multiply"
predicate to produce an int.
"""
if not self._nonterminal_productions:
actions: Dict[str, Set[str]] = defaultdict(set)
# If you didn't give us a set of valid start types, we'll assume all types we know
# about (including functional types) are valid start types.
if self._start_types:
start_types = self._start_types
else:
start_types = set()
for type_list in self._function_types.values():
start_types.update(type_list)
for start_type in start_types:
actions[START_SYMBOL].add(f"{START_SYMBOL} -> {start_type}")
for name, function_type_list in self._function_types.items():
for function_type in function_type_list:
actions[str(function_type)].add(f"{function_type} -> {name}")
if isinstance(function_type, FunctionType):
return_type = function_type.return_type
arg_types = function_type.argument_typesdef __init__(self, host_name: str, port_number: int, *,
loop: typing.Optional[asyncio.AbstractEventLoop]=None,
logger: typing.Optional[logging.Logger]=None,
transport_policy: typing.Optional[TransportPolicy]=None,
) -> None:
dummy_transport = Transport(loop, logger, transport_policy)
self._loop = dummy_transport.get_loop()
self._logger = dummy_transport.get_logger()
self._transport_policy = dummy_transport.get_policy()
self._address = host_name, port_number
self._channels: typing.Set[ServerChannel] = set()
self._starting: typing.Optional[utils.Future[None]] = None
self._running: asyncio.Future[None] = utils.make_done_future(self._loop)
self._is_stopping = 0
self._version = 0
self.on_initialize()
