コード例 #1
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ファイル: _buffer.py プロジェクト: lizh06/RxPY
def buffer_toggle_(
    openings: Observable[Any], closing_mapper: Callable[[Any], Observable[Any]]
) -> Callable[[Observable[_T]], Observable[List[_T]]]:
    return compose(
        ops.window_toggle(openings, closing_mapper),
        ops.flat_map(ops.to_list()),
    )
コード例 #2
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ファイル: _singleordefault.py プロジェクト: lizh06/RxPY
def single_or_default_(
    predicate: Optional[Predicate[_T]] = None, default_value: _T = None
) -> Callable[[Observable[_T]], Observable[_T]]:
    """Returns the only element of an observable sequence that matches
    the predicate, or a default value if no such element exists this
    method reports an exception if there is more than one element in the
    observable sequence.

    Examples:
        >>> res = single_or_default()
        >>> res = single_or_default(lambda x: x == 42)
        >>> res = single_or_default(lambda x: x == 42, 0)
        >>> res = single_or_default(None, 0)

    Args:
        predicate -- [Optional] A predicate function to evaluate for
            elements in the source sequence.
        default_value -- [Optional] The default value if the index is
            outside the bounds of the source sequence.

    Returns:
        An observable Sequence containing the single element in the
    observable sequence that satisfies the condition in the predicate,
    or a default value if no such element exists.
    """

    if predicate:
        return compose(
            ops.filter(predicate), ops.single_or_default(None, default_value)
        )
    else:
        return single_or_default_async_(True, default_value)
コード例 #3
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ファイル: _buffer.py プロジェクト: lizh06/RxPY
def buffer_when_(
    closing_mapper: Callable[[], Observable[Any]]
) -> Callable[[Observable[_T]], Observable[List[_T]]]:
    return compose(
        ops.window_when(closing_mapper),
        ops.flat_map(ops.to_list()),
    )
コード例 #4
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ファイル: _firstordefault.py プロジェクト: lizh06/RxPY
def first_or_default_(
    predicate: Optional[Predicate[_T]] = None,
    default_value: Optional[_T] = None
) -> Callable[[Observable[_T]], Observable[_T]]:
    """Returns the first element of an observable sequence that
    satisfies the condition in the predicate, or a default value if no
    such element exists.

    Examples:
        >>> res = source.first_or_default()
        >>> res = source.first_or_default(lambda x: x > 3)
        >>> res = source.first_or_default(lambda x: x > 3, 0)
        >>> res = source.first_or_default(None, 0)

    Args:
        source -- Observable sequence.
        predicate -- [optional] A predicate function to evaluate for
            elements in the source sequence.
        default_value -- [Optional] The default value if no such element
            exists.  If not specified, defaults to None.

    Returns:
        A function that takes an observable source and reutrn an
        observable sequence containing the first element in the
        observable sequence that satisfies the condition in the
        predicate, or a default value if no such element exists.
    """

    if predicate:
        return compose(ops.filter(predicate),
                       ops.first_or_default(None, default_value))
    return first_or_default_async_(True, default_value)
コード例 #5
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ファイル: _buffer.py プロジェクト: lizh06/RxPY
def buffer_(
    boundaries: Observable[Any],
) -> Callable[[Observable[_T]], Observable[List[_T]]]:
    return compose(
        ops.window(boundaries),
        ops.flat_map(ops.to_list()),
    )
コード例 #6
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ファイル: _first.py プロジェクト: lizh06/RxPY
def first_(
    predicate: Optional[Predicate[_T]] = None,
) -> Callable[[Observable[_T]], Observable[_T]]:
    """Returns the first element of an observable sequence that
    satisfies the condition in the predicate if present else the first
    item in the sequence.

    Examples:
        >>> res = res = first()(source)
        >>> res = res = first(lambda x: x > 3)(source)

    Args:
        predicate -- [Optional] A predicate function to evaluate for
            elements in the source sequence.

    Returns:
        A function that takes an observable source and returns an
        observable sequence containing the first element in the
        observable sequence that satisfies the condition in the predicate if
        provided, else the first item in the sequence.
    """

    if predicate:
        return compose(ops.filter(predicate), ops.first())

    return first_or_default_async_(False)
コード例 #7
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ファイル: _sum.py プロジェクト: lizh06/RxPY
def sum_(
    key_mapper: Optional[Mapper[Any, float]] = None
) -> Callable[[Observable[Any]], Observable[float]]:
    if key_mapper:
        return compose(ops.map(key_mapper), ops.sum())

    def accumulator(prev: float, cur: float) -> float:
        return prev + cur

    return ops.reduce(seed=0, accumulator=accumulator)
コード例 #8
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ファイル: _map.py プロジェクト: lizh06/RxPY
def map_indexed_(
    mapper_indexed: Optional[MapperIndexed[_T1, _T2]] = None
) -> Callable[[Observable[_T1]], Observable[_T2]]:
    def _identity(value: _T1, _: int) -> _T2:
        return cast(_T2, value)

    _mapper_indexed = mapper_indexed or cast(typing.MapperIndexed[_T1, _T2], _identity)

    return compose(
        ops.zip_with_iterable(infinite()),
        ops.starmap_indexed(_mapper_indexed),
    )
コード例 #9
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ファイル: _bufferwithtime.py プロジェクト: lizh06/RxPY
def buffer_with_time_(
    timespan: typing.RelativeTime,
    timeshift: Optional[typing.RelativeTime] = None,
    scheduler: Optional[abc.SchedulerBase] = None,
) -> Callable[[Observable[_T]], Observable[List[_T]]]:
    if not timeshift:
        timeshift = timespan

    return compose(
        ops.window_with_time(timespan, timeshift, scheduler),
        ops.flat_map(ops.to_list()),
    )
コード例 #10
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def contains_(
    value: _T,
    comparer: Optional[typing.Comparer[_T]] = None
) -> Callable[[Observable[_T]], Observable[bool]]:
    comparer_ = comparer or default_comparer

    def predicate(v: _T) -> bool:
        return comparer_(v, value)

    return compose(
        ops.filter(predicate),
        ops.some(),
    )
コード例 #11
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def reduce_(
    accumulator: Accumulator[_TState, _T],
    seed: Union[_TState, Type[NotSet]] = NotSet
) -> Callable[[Observable[_T]], Observable[Any]]:
    """Applies an accumulator function over an observable sequence,
    returning the result of the aggregation as a single element in the
    result sequence. The specified seed value is used as the initial
    accumulator value.

    For aggregation behavior with incremental intermediate results, see
    `scan()`.

    Examples:
        >>> res = reduce(lambda acc, x: acc + x)
        >>> res = reduce(lambda acc, x: acc + x, 0)

    Args:
        accumulator: An accumulator function to be
            invoked on each element.
        seed: Optional initial accumulator value.

    Returns:
        An operator function that takes an observable source and returns
        an observable sequence containing a single element with the
        final accumulator value.
    """
    if seed is not NotSet:
        seed_: _TState = cast(_TState, seed)
        scanner = ops.scan(accumulator, seed=seed_)
        return compose(
            scanner,
            ops.last_or_default(default_value=seed_),
        )

    return compose(
        ops.scan(accumulator),
        ops.last(),
    )
コード例 #12
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ファイル: _all.py プロジェクト: lizh06/RxPY
def all_(
        predicate: Predicate[_T]
) -> Callable[[Observable[_T]], Observable[bool]]:
    def filter(v: _T):
        return not predicate(v)

    def mapping(b: bool) -> bool:
        return not b

    return compose(
        ops.filter(filter),
        ops.some(),
        ops.map(mapping),
    )
コード例 #13
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def is_empty_() -> Callable[[Observable[Any]], Observable[bool]]:
    """Determines whether an observable sequence is empty.

    Returns:
        An observable sequence containing a single element
        determining whether the source sequence is empty.
    """

    def mapper(b: bool) -> bool:
        return not b

    return compose(
        ops.some(),
        ops.map(mapper),
    )
コード例 #14
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ファイル: _count.py プロジェクト: lizh06/RxPY
def count_(
    predicate: Optional[Predicate[_T]] = None,
) -> Callable[[Observable[_T]], Observable[int]]:

    if predicate:
        return compose(
            ops.filter(predicate),
            ops.count(),
        )

    def reducer(n: int, _: _T) -> int:
        return n + 1

    counter = ops.reduce(reducer, seed=0)
    return counter
コード例 #15
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ファイル: _publish.py プロジェクト: lizh06/RxPY
def share_() -> Callable[[Observable[_TSource]], Observable[_TSource]]:
    """Share a single subscription among multple observers.

    Returns a new Observable that multicasts (shares) the original
    Observable. As long as there is at least one Subscriber this
    Observable will be subscribed and emitting data. When all
    subscribers have unsubscribed it will unsubscribe from the source
    Observable.

    This is an alias for a composed publish() and ref_count().
    """
    return compose(
        ops.publish(),
        ops.ref_count(),
    )
コード例 #16
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def skip_while_indexed_(
    predicate: typing.PredicateIndexed[_T],
) -> Callable[[Observable[_T]], Observable[_T]]:
    def indexer(x: _T, i: int) -> Tuple[_T, int]:
        return (x, i)

    def skipper(x: Tuple[_T, int]) -> bool:
        return predicate(*x)

    def mapper(x: Tuple[_T, int]) -> _T:
        return x[0]

    return compose(
        ops.map_indexed(indexer),
        ops.skip_while(skipper),
        ops.map(mapper),
    )
コード例 #17
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def max_(
    comparer: Optional[Comparer[_T]] = None,
) -> Callable[[Observable[_T]], Observable[_T]]:
    """Returns the maximum value in an observable sequence according to
    the specified comparer.

    Examples:
        >>> op = max()
        >>> op = max(lambda x, y:  x.value - y.value)

    Args:
        comparer: [Optional] Comparer used to compare elements.

    Returns:
        An operator function that takes an observable source and returns
        an observable sequence containing a single element with the
        maximum element in the source sequence.
    """
    return compose(
        ops.max_by(identity, comparer),
        ops.map(first_only),
    )
コード例 #18
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def min_(
    comparer: Optional[Comparer[_T]] = None,
) -> Callable[[Observable[_T]], Observable[_T]]:
    """The `min` operator.

    Returns the minimum element in an observable sequence according to
    the optional comparer else a default greater than less than check.

    Examples:
        >>> res = source.min()
        >>> res = source.min(lambda x, y: x.value - y.value)

    Args:
        comparer: [Optional] Comparer used to compare elements.

    Returns:
        An observable sequence containing a single element
        with the minimum element in the source sequence.
    """
    return compose(
        ops.min_by(identity, comparer),
        ops.map(first_only),
    )