示例#1
0
文件: server.py 项目: NiklasMM/micro
def make_activity_endpoint(url: str, get_activity: Callable[[VarArg(str)], Activity]) -> Handler:
    """Make an API endpoint for an :class:`Activity` at *url*.

    *get_activity* is a function of the form *get_activity(*args)*, responsible for retrieving the
    activity. *args* are the URL arguments.
    """
    return (r'{}{}$'.format(url, SLICE_URL), _ActivityEndpoint, {'get_activity': get_activity})
示例#2
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def skip_if(
    check_skip: t.Callable[[VarArg(t.Any), KwArg(t.Any)], bool],
    skip_return: t.Callable[[VarArg(t.Any), KwArg(t.Any)],
                            t.Any] = lambda *a, **kw: None,
) -> t.Any:
    def decorator(func):
        @wraps(func)
        def wrapper(*args, **kwargs) -> t.Optional[t.Any]:
            if not check_skip(*args, **kwargs):
                result = func(*args, **kwargs)
                return result
            else:
                return skip_return(*args, **kwargs)

        return wrapper

    return decorator
示例#3
0
 def __init__(
     self,
     root: str,
     config: Config,
     docker_compose_func: Callable[[str, Config, VarArg(str)], int],
 ):
     super().__init__(root, config)
     self.docker_compose_func = docker_compose_func
示例#4
0
def hasLabel(
    *labels: str,
) -> Tuple[Callable[[
        VarArg(Any),
        NamedArg(Any, "traversal"),
        NamedArg(Union[str, Tuple[str, str]], "vertex"),
], bool, ], Tuple[str, ...], None, ]:
    return _hasLabel, labels, dict()
示例#5
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class Builtin(Obj):
    fn: Callable[[VarArg(Obj)], Obj]

    def type(self) -> ObjType:
        return ObjType.BUILTIN

    def inspect(self) -> str:
        return "Builtin function"
示例#6
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def make_list_endpoints(
        url: str, get_list: Callable[[VarArg(str)], Sequence[JSONifiable]]) -> List[Handler]:
    """Make the API endpoints for a list with support for slicing.

    *url* is the URL of the list.

    *get_list* is a hook of the form *get_list(*args)*, responsible for retrieving the underlying
    list. *args* are the URL arguments.
    """
    return [(url + r'(?:/(\d*:\d*))?$', _ListEndpoint, {'get_list': get_list})]
示例#7
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    def __getattr__(self, attr: str) -> Callable[
        [VarArg(Any), KwArg(Any)], Any]:
        '''Proxy calls to settings store.'''
        if hasattr(self.__dict__.get('data'), attr):

            def wrapper(*args, **kwargs):
                '''Call query for data store.'''
                return getattr(self.data, attr)(*args, **kwargs)

            return wrapper
        raise AttributeError(attr)
示例#8
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def make_activity_endpoints(url: str,
                            get_activity: Callable[[VarArg(str)], Activity]) -> List[Handler]:
    """Make API endpoints for an :class:`Activity` at *url*.

    *get_activity* is a function of the form ``get_activity(*args)``, responsible for retrieving the
    activity. *args* are the URL arguments.
    """
    return [
        (fr'{url}{SLICE_URL}$', _ActivityEndpoint, {'get_activity': get_activity}),
        (fr'{url}/stream$', ActivityStreamEndpoint, {'get_activity': get_activity})
    ]
示例#9
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    async def run_task(self,
                       async_fn: Callable[[VarArg()], Awaitable[Any]],
                       *args: Any,
                       daemon: bool = False,
                       name: str = None) -> None:
        """
        Run a task in the background.  If the function throws an exception it
        will trigger the service to be cancelled and be propogated.

        If `daemon == True` then the the task is expected to run indefinitely
        and will trigger cancellation if the task finishes.
        """
        ...
示例#10
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def create(
    root: str,
    config: Dict[str, Any],
    docker_compose_func: Callable[[str, Dict[
        str, Any], VarArg(str)], int],
    service: str,
    path: str,
) -> str:
    volumes_root_path = get_root_path(root)
    volume_name = get_name(path)
    container_volumes_root_path = "/tmp/volumes"
    command = """rm -rf {volumes_path}/{volume_name}
cp -r {src_path} {volumes_path}/{volume_name}
chown -R {user_id} {volumes_path}/{volume_name}""".format(
        volumes_path=container_volumes_root_path,
        volume_name=volume_name,
        src_path=path,
        user_id=get_user_id(),
    )

    # Create volumes root dir if it does not exist. Otherwise it is created with root owner and might not be writable
    # in the container, e.g: in the dev containers.
    if not os.path.exists(volumes_root_path):
        os.makedirs(volumes_root_path)

    docker_compose_func(
        root,
        config,
        "run",
        "--rm",
        "--no-deps",
        "--volume",
        "{}:{}".format(volumes_root_path, container_volumes_root_path),
        service,
        "sh",
        "-e",
        "-c",
        command,
    )
    return os.path.join(volumes_root_path, volume_name)
示例#11
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def load(region: str) -> Spec:
    specs = json.loads(
        importlib.resources.read_text(__package__, f"{region}.json"))
    rescs: MutableMapping[str, MutableMapping[str, MutableMapping[
        str, Callable[[VarArg(), KwArg()], Resource]]], ] = {}
    for typ, spec in specs["ResourceTypes"].items():
        rvnd, rsvc, rcom = typ.split("::")
        vnd, svc, com = TRANS[rvnd], TRANS[rsvc], TRANS[rcom]
        svc = "lambda_" if svc == "lambda" else svc
        attrs: MutableMapping[str, Union[Type[types.Ref],
                                         Type[types.Attr]]] = {
                                             TRANS[a]: _resolve_attr(a, s)
                                             for a, s in spec.get(
                                                 "Attributes", {}).items()
                                         }
        attrs["ref"] = types.Ref
        check = _resolve_check(typ, spec, specs)

        def bake(vnd_, svc_, com_, typ_, attrs_, check_):
            def factory(*args, **kwargs) -> Resource:
                name = next(iter(args), "")
                # props = dict(kwargs) if kwargs else None
                res = Resource(name, vnd_, svc_, com_, typ_, attrs_, check_,
                               dict(kwargs))
                return res

            factory.__module__ = ".".join(["ic", vnd_, svc_])
            factory.__name__ = com_
            factory.__qualname__ = com_
            sigs = [
                inspect.Parameter(p, inspect.Parameter.KEYWORD_ONLY)
                for p in check_.items
            ]
            # python/myp#5958
            factory.__signature__ = inspect.Signature(sigs)  # type: ignore
            return factory

        resc = bake(vnd, svc, com, typ, attrs, check)
        rescs.setdefault(vnd, {}).setdefault(svc, {})[com] = resc
    return rescs
示例#12
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Kwargs = Dict[str, Any]
KwargsLike = Union[None, Kwargs]
KwargsLikeSequence = MaybeSequence[KwargsLike]
FileName = Union[str, Path]

# Data
Data = Dict[Label, SeriesFrame]

# Plotting
TraceName = Union[str, None]
TraceNames = MaybeSequence[TraceName]

# Generic
I = TypeVar("I")
R = TypeVar("R")
ApplyFunc = Callable[[int, Array1d, VarArg()], MaybeArray]
RowApplyFunc = Callable[[int, Array1d, VarArg()], MaybeArray]
RollApplyFunc = Callable[[int, int, Array1d, VarArg()], Scalar]
RollMatrixApplyFunc = Callable[[int, Array2d, VarArg()], MaybeArray]
GroupByApplyFunc = Callable[[Array1d, int, Array1d, VarArg()], Scalar]
GroupByMatrixApplyFunc = Callable[[Array1d, Array2d, VarArg()], MaybeArray]
ApplyMapFunc = Callable[[int, int, I, VarArg()], Scalar]
FilterFunc = Callable[[int, int, I, VarArg()], bool]
ReduceFunc = Callable[[int, Array1d, VarArg()], Scalar]
ReduceArrayFunc = Callable[[int, Array1d, VarArg()], Array1d]
GroupReduceFunc = Callable[[int, Array2d, VarArg()], Scalar]
FlatGroupReduceFunc = Callable[[int, Array1d, VarArg()], Scalar]
GroupReduceArrayFunc = Callable[[int, Array2d, VarArg()], Array1d]
FlatGroupReduceArrayFunc = Callable[[int, Array1d, VarArg()], Array1d]
GroupSqueezeFunc = Callable[[int, int, Array1d, VarArg()], R]
示例#13
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            if hasattr(base, "VALIDATORS"):
                validators.update(base.VALIDATORS)  # type: ignore

        for attr_name, attr in namespace.items():
            if attr_name.startswith('validate_'):
                validators.add(attr_name)

        cls = super(TypeMeta, mcs).__new__(mcs, name, bases, namespace, *args, **kwargs)
        cls.VALIDATORS = validators  # type: ignore

        return cls


Validator = ty.Union[
    ty.Callable[
        [Arg(T, 'value'), Arg(ty.Any, 'original'), VarArg(ty.Any), KwArg(ty.Any)],
        ValidationResult
    ],
    AbstractValidator[T]
]
DefaultValue = ty.Union[ty.Any, ty.Callable[[], ty.Any]]
Types = ty.Tuple[type, ...]


class BaseType(AbstractConvertible[T], metaclass=TypeMeta):

    """Base type

    :param default: default value
    :param nullable: invalidate when value is None
    :param enum: determines allowed values
from typing import TYPE_CHECKING, cast as typingcast

if TYPE_CHECKING:
    from typing import (Callable, MutableMapping, Any, Sequence, List, Union,
                        Iterable, Tuple)
    from mypy_extensions import VarArg
    MergeBaseCallable = Callable[[MutableMapping[
        str, Any], VarArg(str)], Union[MutableMapping[str, Any], List[Any]]]
    MergeFunctionType = Callable[
        [MutableMapping[str, Any], Sequence[str], str], None]


def getMapOp(operation: 'Callable', dict_obj: 'MutableMapping[str, Any]',
             initial_value: 'Any', *args: str) -> 'Any':

    out = initial_value
    for key in args:
        val = dict_obj.get(key)
        if val is not None:
            operation(out, val)

    return out


def getMapConcat(dict_obj: 'MutableMapping[str, MutableMapping[str, Any]]',
                 *args: str) -> 'MutableMapping[str, Any]':

    return typingcast(
        'MutableMapping[str, Any]',
        getMapOp(lambda first, second: first.update(second), dict_obj, {},
                 *args))
    pass


class InsertOptions(OptionBlock, ServerDurableOption, ClientDurableOption):
    pass


class GetFromReplicaOptions(OptionBlock):
    pass


T = TypeVar('T', bound='CBCollection')
R = TypeVar("R")

RawCollectionMethodDefault = Callable[
    [Arg('CBCollection', 'self'), Arg(str, 'key'), VarArg(OptionBlockDeriv), KwArg(Any)], R]
RawCollectionMethodInt = Callable[
    [Arg('CBCollection', 'self'), Arg(str, 'key'), int, VarArg(OptionBlockDeriv), KwArg(Any)], R]
RawCollectionMethod = Union[RawCollectionMethodDefault, RawCollectionMethodInt]
RawCollectionMethodSpecial = TypeVar('RawCollectionMethodSpecial',bound=RawCollectionMethod)


def _get_result_and_inject(func  # type: RawCollectionMethod
                           ):
    # type: (...) ->RawCollectionMethod
    result = _inject_scope_and_collection(get_result_wrapper(func))
    result.__doc__=func.__doc__
    result.__name__=func.__name__
    return result

示例#16
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class DiscoveryV5Module(ModuleV2):  # type: ignore
    """
    A web3.py module that exposes high level APIs for interacting with the
    discovery v5 network.
    """

    get_node_info: Method[Callable[[], NodeInfo]] = Method(
        RPC.nodeInfo,
        result_formatters=lambda method, module: NodeInfo.from_rpc_response,
    )
    update_node_info: Method[Callable[
        [VarArg(ENR_KV)], UpdateENRPayload]] = Method(
            RPC.updateNodeInfo,
            result_formatters=lambda method, module: UpdateENRPayload.
            from_rpc_response,
            mungers=[kv_pair_munger],
        )
    get_routing_table_info: Method[Callable[[], TableInfo]] = Method(
        RPC.routingTableInfo,
        result_formatters=lambda method, module: TableInfo.from_rpc_response,
    )
    get_enr: Method[Callable[[NodeIDIdentifier], GetENRPayload]] = Method(
        RPC.getENR,
        result_formatters=lambda method, module: GetENRPayload.
        from_rpc_response,
        mungers=[node_identifier_munger],
    )
    set_enr: Method[Callable[[str], EmptyPayload]] = Method(
        RPC.setENR,
        result_formatters=lambda method, module: EmptyPayload.
        from_rpc_response,
        mungers=[node_identifier_munger],
    )
    delete_enr: Method[Callable[[NodeIDIdentifier], EmptyPayload]] = Method(
        RPC.deleteENR,
        result_formatters=lambda method, module: EmptyPayload.
        from_rpc_response,
        mungers=[node_identifier_munger],
    )
    lookup_enr: Method[Callable[[NodeIDIdentifier], GetENRPayload]] = Method(
        RPC.lookupENR,
        result_formatters=lambda method, module: GetENRPayload.
        from_rpc_response,
        mungers=[node_identifier_and_sequence_munger],
    )
    ping: Method[Callable[[NodeIDIdentifier], PongPayload]] = Method(
        RPC.ping,
        result_formatters=lambda method, module: PongPayload.from_rpc_response,
        mungers=[node_identifier_munger],
    )
    send_ping: Method[Callable[[NodeIDIdentifier], SendPingPayload]] = Method(
        RPC.sendPing,
        result_formatters=lambda method, module: SendPingPayload.
        from_rpc_response,
        mungers=[node_identifier_munger],
    )
    send_pong: Method[Callable[[NodeIDIdentifier, HexStr],
                               EmptyPayload]] = Method(
                                   RPC.sendPong,
                                   result_formatters=lambda method, module:
                                   EmptyPayload.from_rpc_response,
                                   mungers=[send_pong_munger],
                               )
    find_nodes: Method[Callable[[NodeIDIdentifier, Union[int, Sequence[int]]],
                                Tuple[ENRAPI, ...]]] = Method(
                                    RPC.findNodes,
                                    result_formatters=lambda method, module:
                                    find_nodes_response_formatter,
                                    mungers=[find_nodes_munger],
                                )
    send_find_nodes: Method[
        Callable[[NodeIDIdentifier, Union[int, Sequence[int]]],
                 HexStrPayload]] = Method(
                     RPC.sendFindNodes,
                     result_formatters=lambda method, module: HexStrPayload.
                     from_rpc_response,
                     mungers=[find_nodes_munger],
                 )
    send_found_nodes: Method[Callable[
        [NodeIDIdentifier, Tuple[ENRAPI], HexStr], IntegerPayload]] = Method(
            RPC.sendFoundNodes,
            result_formatters=lambda method, module: IntegerPayload.
            from_rpc_response,
            mungers=[send_found_nodes_munger],
        )
    send_talk_request: Method[Callable[
        [NodeIDIdentifier, HexStr, HexStr], HexStrPayload]] = Method(
            RPC.sendTalkRequest,
            result_formatters=lambda method, module: HexStrPayload.
            from_rpc_response,
            mungers=[talk_request_munger],
        )
    send_talk_response: Method[Callable[
        [NodeIDIdentifier, HexStr, HexStr], EmptyPayload]] = Method(
            RPC.sendTalkResponse,
            result_formatters=lambda method, module: EmptyPayload.
            from_rpc_response,
            mungers=[talk_request_munger],
        )
    talk: Method[Callable[[NodeIDIdentifier, HexStr, HexStr],
                          HexStrPayload]] = Method(
                              RPC.talk,
                              result_formatters=lambda method, module:
                              HexStrPayload.from_rpc_response,
                              mungers=[talk_request_munger],
                          )
    bond: Method[Callable[[NodeIDIdentifier], BoolPayload]] = Method(
        RPC.bond,
        result_formatters=lambda method, module: BoolPayload.from_rpc_response,
        mungers=[node_identifier_munger],
    )
    recursive_find_nodes: Method[Callable[[NodeIDIdentifier], Tuple[
        ENRAPI, ...]]] = Method(
            RPC.recursiveFindNodes,
            result_formatters=lambda method, module:
            find_nodes_response_formatter,
            mungers=[node_identifier_munger],
        )
示例#17
0
        self._reqs.extend(deps)

    def deletion(self, policy: str):
        policies = {"delete", "retain", "snapshot"}
        if policy not in policies:
            raise ValueError(
                f"invalid deletion policy {policy!r}, expected one of {policies}"
            )
        self._deletion = policy

    # python/myp#220
    deletion = property(fset=deletion)  # type: ignore


Spec = Mapping[str, Mapping[str, Mapping[str,
                                         Callable[[VarArg(), KwArg()],
                                                  Resource]]]]


@lru_cache(maxsize=None)
def load(region: str) -> Spec:
    specs = json.loads(
        importlib.resources.read_text(__package__, f"{region}.json"))
    rescs: MutableMapping[str, MutableMapping[str, MutableMapping[
        str, Callable[[VarArg(), KwArg()], Resource]]], ] = {}
    for typ, spec in specs["ResourceTypes"].items():
        rvnd, rsvc, rcom = typ.split("::")
        vnd, svc, com = TRANS[rvnd], TRANS[rsvc], TRANS[rcom]
        svc = "lambda_" if svc == "lambda" else svc
        attrs: MutableMapping[str, Union[Type[types.Ref],
                                         Type[types.Attr]]] = {
from functools import wraps
from threading import local
from typing import Any, Callable, cast, Dict, Generic, Iterable, Iterator, List, Optional, Sequence, TypeVar, Text, Tuple, Union
from typing_extensions import Protocol
from mypy_extensions import KwArg, VarArg
import sys

SomeFunction = Callable[[VarArg(), KwArg()], Any]

_F = TypeVar("_F", bound=Callable[..., Any])


class SupportsClose(Protocol):
    def close(self, *args: Any, **kwargs: Any) -> None:
        ...


_T = TypeVar("_T", bound=SupportsClose)


class Cursor(Iterator[Any], Protocol):
    arraysize: Any
    connection: Any
    description: Any
    lastrowid: Any
    row_factory: Any
    rowcount: Any

    def __init__(self, *args: Any, **kwargs: Any) -> None:
        ...
示例#19
0
Args = TypedDict('Args', {
    'config': str,
    'outdir': str,
    'ref': str,
    'r1': str,
    'r2': str,
    'sample': str
})

PathLike = str
Targets = List[PathLike]
FileDeps = List[PathLike]
Failure = Literal[False]
ActionReturn = Union[Failure, None, Dict[str, Any]]
PyAction = Callable[[List[PathLike], List[PathLike],
                     VarArg(Any)], ActionReturn]
Actions = List[Union[PyAction, str]]

IdxBamJob = TypedDict(
    'IdxBamJob', {
        'targets': Targets,
        'actions': Actions,
        'file_dep': FileDeps,
        'task_dep': List[Literal['index_bam']]
    })

TaskDepJob = TypedDict(
    'TaskDepJob', {
        'targets': Targets,
        'actions': Actions,
        'file_dep': FileDeps,
示例#20
0
Kwargs = Dict[str, Any]
KwargsLike = Union[None, Kwargs]
KwargsLikeSequence = MaybeSequence[KwargsLike]
FileName = Union[str, Path]

# Data
Data = Dict[Label, SeriesFrame]

# Plotting
TraceName = Union[str, None]
TraceNames = MaybeSequence[TraceName]

# Generic
I = TypeVar("I")
R = TypeVar("R")
ApplyFunc = Callable[[int, Array1d, VarArg()], R]
RollApplyFunc = Callable[[int, int, Array1d, VarArg()], R]
RollApplyMatrixFunc = Callable[[int, Array2d, VarArg()], R]
GroupByApplyFunc = Callable[[Array1d, int, Array1d, VarArg()], R]
GroupByApplyMatrixFunc = Callable[[Array1d, Array2d, VarArg()], R]
ApplyMapFunc = Callable[[int, int, I, VarArg()], R]
ReduceFunc = Callable[[int, Array1d, VarArg()], R]
GroupReduceFunc = Callable[[int, Array2d, VarArg()], R]
GroupReduceFlatFunc = Callable[[int, Array1d, VarArg()], R]
GroupSqueezeFunc = Callable[[int, int, Array1d, VarArg()], R]

# Signals
SignalChoiceFunc = Callable[[int, int, int, VarArg()], Array1d]
SignalMapFunc = Callable[[int, int, int, VarArg()], float]
SignalReduceFunc = Callable[[int, Array1d, VarArg()], float]
    'Response',
    'ResourceOptions',
    'View',
    'ViewHandlerMethod',
    'ViewHandlerFun',
    'ViewDecorator',
    'PageArg',
    'HttpClientT',
    'Web',
    'CacheBackendT',
    'CacheT',
    'BlueprintT',
]

ViewHandlerMethod = Callable[
    [Arg(Request), VarArg(Any), KwArg(Any)],
    Awaitable[Response],
]

ViewHandler2ArgsFun = Callable[
    [Arg(View), Arg(Request)],
    Union[Coroutine[Any, Any, Response], Awaitable[Response]],
]

ViewHandlerVarArgsFun = Callable[
    [Arg(View), Arg(Request), VarArg(Any), KwArg(Any)],
    Union[Coroutine[Any, Any, Response], Awaitable[Response]],
]

ViewHandlerFun = Union[ViewHandler2ArgsFun, ViewHandlerVarArgsFun]
示例#22
0
文件: signals.py 项目: hk20203/PY
    'FilterReceiverMapping',
    'SignalHandlerT',
    'SignalHandlerRefT',
    'SignalT',
    'SyncSignalT',
    'T',
    'T_contra',
]

T = TypeVar('T')
T_contra = TypeVar('T_contra', contravariant=True)

signal = None  # just here to fix flake8 bug

SignalHandlerT = Union[Callable[
    [T, VarArg(), NamedArg('BaseSignalT', name='signal'),
     KwArg()], None, ], Callable[
         [T, VarArg(
         ), NamedArg('BaseSignalT', name='signal'),
          KwArg()], Awaitable[None], ], ]

if typing.TYPE_CHECKING:
    SignalHandlerRefT = Union[Callable[[], SignalHandlerT],
                              ReferenceType[SignalHandlerT]]
else:
    SignalHandlerRefT = Any

FilterReceiverMapping = MutableMapping[Any, MutableSet[SignalHandlerRefT]]


class BaseSignalT(Generic[T]):
示例#23
0
"""
Covariance estimation for 2SLS and LIML IV estimators
"""
from typing import Any, Callable, Dict, Union

from mypy_extensions import VarArg
from numpy import (arange, argsort, asarray, ceil, cos, empty, int64, ndarray,
                   ones, pi, r_, sin, sum as npsum, unique, where, zeros)
from numpy.linalg import inv, pinv

from linearmodels.typing import Numeric, OptionalNumeric

KernelWeight = Union[Callable[[int, float], ndarray], Callable[[float, float],
                                                               ndarray],
                     Callable[[int, VarArg(Any)],
                              ndarray], Callable[[Numeric, int], Any]]

CLUSTER_ERR = """
clusters has the wrong nobs. Expected {0}, got {1}.  Any missing observation
in the regression variables have have been dropped.  When using a clustered
covariance estimator, drop missing data before estimating the model. The model
property `notnull` contains the locations of the observations that have no
missing values."""


def _cov_cluster(z: ndarray, clusters: ndarray) -> ndarray:
    """
    Core cluster covariance estimator

    Parameters
    ----------
示例#24
0
TargetFunctionT = TypeVar('TargetFunctionT',
                          bound=Callable[..., Any])  # TargetReturnT])
"""Type for decorated function"""
#FUTURE: Currently (mypy 0.800) not possible to declare generic `TypeVar`
# https://github.com/python/mypy/issues/8278
# Would need to use Callable[..., TargetReturnT] directly.

TargetClassT = TypeVar('TargetClassT', bound=object)
"""Type for decorated class"""

TargetT = TypeVar('TargetT', Callable[..., Any], Type[object])
"""Type for decorated function or class"""

TargetFunctionWrapper = Callable[[
    Arg(Callable[..., TargetReturnT], 'target'),
    VarArg(), KwArg()
], TargetReturnT]  # Callable[[TargetFunctionT, ...], TargetReturnT]
"""
Generic type for function that calls the decorated function

:param TargetReturnT: Return type of the decorated function.
"""

TargetMethodWrapper = Callable[[
    Arg(Callable[..., TargetReturnT], 'target'),
    Arg(TargetClassT, 'instance'),
    Arg(Type[TargetClassT], 'cls'),
    VarArg(),
    KwArg()
], TargetReturnT]  # Callable[[TargetFunctionT, ...], TargetReturnT]
"""
示例#25
0
    ndarray,
    ones,
    pi,
    sin,
    sum as npsum,
    unique,
    zeros,
)
from numpy.linalg import inv, pinv

from linearmodels.shared.covariance import cov_cluster, cov_kernel
from linearmodels.typing import NDArray, Numeric, OptionalNumeric

KernelWeight = Union[Callable[[float, float], ndarray], Callable[[float, int],
                                                                 ndarray],
                     Callable[[float, VarArg(Any)], ndarray], ]

CLUSTER_ERR = """
clusters has the wrong nobs. Expected {0}, got {1}.  Any missing observation
in the regression variables have have been dropped.  When using a clustered
covariance estimator, drop missing data before estimating the model. The model
property `notnull` contains the locations of the observations that have no
missing values."""


def kernel_weight_bartlett(bw: float, *args: int) -> NDArray:
    r"""
    Kernel weights from a Bartlett kernel

    Parameters
    ----------
示例#26
0
    async def run_task(self,
                       async_fn: Callable[[VarArg()], Awaitable[Any]],
                       *args: Any,
                       daemon: bool = False,
                       name: str = None) -> None:
        """
        Run a task in the background.  If the function throws an exception it
        will trigger the service to be cancelled and be propogated.

        If `daemon == True` then the the task is expected to run indefinitely
        and will trigger cancellation if the task finishes.
        """
        ...


LogicFnType = Callable[[ManagerAPI, VarArg(), KwArg()], Awaitable[Any]]


class Service(ServiceAPI):
    pass


def as_service(service_fn: LogicFnType) -> Type[Service]:
    """
    Create a service out of a simple function
    """
    class _Service(Service):
        def __init__(self, *args: Any, **kwargs: Any):
            self._args = args
            self._kwargs = kwargs
示例#27
0
 def ap(f: typing.Callable[[Judge, VarArg(AbsVal)], CallSpec]):
     shape.fields[attr] = f
     return f
示例#28
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文件: utils.py 项目: Rested/pypika
class CombNonOpt(Protocol[QueryLike]):
    def __call__(x, self: QueryLike, *args: Any, **kwargs: Any) -> QueryLike:
        ...


class Combiner2(Protocol[QueryLike]):
    def __call__(x, self: QueryLike, __arg) -> Optional[QueryLike]:
        ...


# BuilderFuncSignature = Callable[[Arg(QueryLike, 'self'), VarArg(), KwArg()], Optional[QueryLike]]
# BuilderFuncNoArgSignature = Callable[[Arg(QueryLike, 'self')], Optional[QueryLike]]
# BuilderFuncSingleArgSignature = Callable[[Arg(QueryLike, 'self'), Arg(Any)], Optional[QueryLike]]
# BuilderFuncTwoArgSignature = Callable[[Arg(QueryLike, 'self'), Arg(Any), Arg(Any)], Optional[QueryLike]]
BuilderDecSignature = Callable[[Arg(
    QueryLike, 'self'), VarArg(), KwArg()], QueryLike]


def builder(
    func: Union[Combiner[QueryLike], Combiner2[QueryLike]]
) -> Callable[..., QueryLike]:
    """
    Decorator for wrapper "builder" functions.  These are functions on the Query class or other classes used for
    building queries which mutate the query and return self.  To make the build functions immutable, this decorator is
    used which will deepcopy the current instance.  This decorator will return the return value of the inner function
    or the new copy of the instance.  The inner function does not need to return self.
    """
    import copy

    def _copy(self, *args: Any, **kwargs: Any) -> QueryLike:
        reveal_type(self)
示例#29
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文件: web.py 项目: wuttem/faust
    'Request',
    'Response',
    'View',
    'ViewHandlerMethod',
    'ViewHandlerFun',
    'ViewDecorator',
    'PageArg',
    'HttpClientT',
    'Web',
    'CacheBackendT',
    'CacheT',
    'BlueprintT',
]

ViewHandlerMethod = Callable[
    [Arg(Request), VarArg(Any), KwArg(Any)], Awaitable[Response], ]

ViewHandlerFun = Callable[
    [Arg(View), Arg(Request), VarArg(Any),
     KwArg(Any)], Awaitable[Response], ]

ViewGetHandler = ViewHandlerFun  # XXX compat
ViewDecorator = Callable[[ViewHandlerFun], ViewHandlerFun]
RoutedViewGetHandler = ViewDecorator  # XXX compat
PageArg = Union[Type[View], ViewHandlerFun]
RouteDecoratorRet = Callable[[PageArg], PageArg]


class CacheBackendT(ServiceT):
    @abc.abstractmethod
    def __init__(self,
示例#30
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"""Types defined for DashML."""

import typing as t

if t.TYPE_CHECKING:
    from mypy_extensions import VarArg, KwArg  # pragma: no cover
else:
    # Stub out for normal execution.
    VarArg = lambda x: t.List[x]
    KwArg = lambda x: t.Dict[str, x]

from lxml.etree import _Element as Element


__all__ = ["Child", "Prop", "BuilderCallable", "Element"]


Child = t.Union[Element, str, int, float, None]
Prop = t.Union[str, int, float, bool, None]

BuilderCallable = t.Callable[[VarArg(Child), KwArg(Prop)], Element]