Source code for apache_beam.transforms.window

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"""Windowing concepts.

A WindowInto transform logically divides up or groups the elements of a
PCollection into finite windows according to a windowing function (derived from
WindowFn).

The output of WindowInto contains the same elements as input, but they have been
logically assigned to windows. The next GroupByKey(s) transforms, including one
within a composite transform, will group by the combination of keys and windows.

Windowing a PCollection allows chunks of it to be processed individually, before
the entire PCollection is available.  This is especially important for
PCollection(s) with unbounded size, since the full PCollection is never
available at once, since more data is continually arriving. For PCollection(s)
with a bounded size (aka. conventional batch mode), by default, all data is
implicitly in a single window (see GlobalWindows), unless WindowInto is
applied.

For example, a simple form of windowing divides up the data into fixed-width
time intervals, using FixedWindows.

Seconds are used as the time unit for the built-in windowing primitives here.
Integer or floating point seconds can be passed to these primitives.

Internally, seconds, with microsecond granularity, are stored as
timeutil.Timestamp and timeutil.Duration objects. This is done to avoid
precision errors that would occur with floating point representations.

Custom windowing function classes can be created, by subclassing from
WindowFn.
"""

# pytype: skip-file

import abc
from functools import total_ordering
from typing import Any
from typing import Iterable
from typing import List
from typing import Optional

from google.protobuf import duration_pb2
from google.protobuf import timestamp_pb2

from apache_beam.coders import coders
from apache_beam.portability import common_urns
from apache_beam.portability import python_urns
from apache_beam.portability.api import beam_runner_api_pb2
from apache_beam.portability.api import standard_window_fns_pb2
from apache_beam.transforms import timeutil
from apache_beam.utils import proto_utils
from apache_beam.utils import urns
from apache_beam.utils import windowed_value
from apache_beam.utils.timestamp import MIN_TIMESTAMP
from apache_beam.utils.timestamp import Duration
from apache_beam.utils.timestamp import DurationTypes  # pylint: disable=unused-import
from apache_beam.utils.timestamp import Timestamp
from apache_beam.utils.timestamp import TimestampTypes  # pylint: disable=unused-import
from apache_beam.utils.windowed_value import WindowedValue

__all__ = [
    'TimestampCombiner',
    'WindowFn',
    'BoundedWindow',
    'IntervalWindow',
    'TimestampedValue',
    'GlobalWindow',
    'NonMergingWindowFn',
    'GlobalWindows',
    'FixedWindows',
    'SlidingWindows',
    'Sessions',
]


# TODO(ccy): revisit naming and semantics once Java Apache Beam finalizes their
# behavior.
[docs]class TimestampCombiner(object): """Determines how output timestamps of grouping operations are assigned.""" OUTPUT_AT_EOW = beam_runner_api_pb2.OutputTime.END_OF_WINDOW OUTPUT_AT_EARLIEST = beam_runner_api_pb2.OutputTime.EARLIEST_IN_PANE OUTPUT_AT_LATEST = beam_runner_api_pb2.OutputTime.LATEST_IN_PANE # TODO(robertwb): Add this to the runner API or remove it. OUTPUT_AT_EARLIEST_TRANSFORMED = 'OUTPUT_AT_EARLIEST_TRANSFORMED'
[docs] @staticmethod def get_impl(timestamp_combiner, window_fn): # type: (beam_runner_api_pb2.OutputTime.Enum, WindowFn) -> timeutil.TimestampCombinerImpl if timestamp_combiner == TimestampCombiner.OUTPUT_AT_EOW: return timeutil.OutputAtEndOfWindowImpl() elif timestamp_combiner == TimestampCombiner.OUTPUT_AT_EARLIEST: return timeutil.OutputAtEarliestInputTimestampImpl() elif timestamp_combiner == TimestampCombiner.OUTPUT_AT_LATEST: return timeutil.OutputAtLatestInputTimestampImpl() elif timestamp_combiner == TimestampCombiner.OUTPUT_AT_EARLIEST_TRANSFORMED: return timeutil.OutputAtEarliestTransformedInputTimestampImpl(window_fn) else: raise ValueError('Invalid TimestampCombiner: %s.' % timestamp_combiner)
[docs]class WindowFn(urns.RunnerApiFn, metaclass=abc.ABCMeta): """An abstract windowing function defining a basic assign and merge."""
[docs] class AssignContext(object): """Context passed to WindowFn.assign().""" def __init__( self, timestamp, # type: TimestampTypes element=None, # type: Optional[Any] window=None # type: Optional[BoundedWindow] ): # type: (...) -> None self.timestamp = Timestamp.of(timestamp) self.element = element self.window = window
[docs] @abc.abstractmethod def assign(self, assign_context): # type: (AssignContext) -> Iterable[BoundedWindow] # noqa: F821 """Associates windows to an element. Arguments: assign_context: Instance of AssignContext. Returns: An iterable of BoundedWindow. """ raise NotImplementedError
[docs] class MergeContext(object): """Context passed to WindowFn.merge() to perform merging, if any.""" def __init__(self, windows): # type: (Iterable[BoundedWindow]) -> None self.windows = list(windows)
[docs] def merge(self, to_be_merged, merge_result): # type: (Iterable[BoundedWindow], BoundedWindow) -> None raise NotImplementedError
[docs] @abc.abstractmethod def merge(self, merge_context): # type: (WindowFn.MergeContext) -> None """Returns a window that is the result of merging a set of windows.""" raise NotImplementedError
[docs] def is_merging(self): # type: () -> bool """Returns whether this WindowFn merges windows.""" return True
[docs] @abc.abstractmethod def get_window_coder(self): # type: () -> coders.Coder raise NotImplementedError
[docs] def get_transformed_output_time(self, window, input_timestamp): # pylint: disable=unused-argument # type: (BoundedWindow, Timestamp) -> Timestamp """Given input time and output window, returns output time for window. If TimestampCombiner.OUTPUT_AT_EARLIEST_TRANSFORMED is used in the Windowing, the output timestamp for the given window will be the earliest of the timestamps returned by get_transformed_output_time() for elements of the window. Arguments: window: Output window of element. input_timestamp: Input timestamp of element as a timeutil.Timestamp object. Returns: Transformed timestamp. """ # By default, just return the input timestamp. return input_timestamp
urns.RunnerApiFn.register_pickle_urn(python_urns.PICKLED_WINDOWFN)
[docs]class BoundedWindow(object): """A window for timestamps in range (-infinity, end). Attributes: end: End of window. """ def __init__(self, end): # type: (TimestampTypes) -> None self._end = Timestamp.of(end) @property def start(self): # type: () -> Timestamp raise NotImplementedError @property def end(self): # type: () -> Timestamp return self._end
[docs] def max_timestamp(self): # type: () -> Timestamp return self.end.predecessor()
def __eq__(self, other): raise NotImplementedError def __ne__(self, other): # Order first by endpoint, then arbitrarily return self.end != other.end or hash(self) != hash(other) def __lt__(self, other): if self.end != other.end: return self.end < other.end return hash(self) < hash(other) def __le__(self, other): if self.end != other.end: return self.end <= other.end return hash(self) <= hash(other) def __gt__(self, other): if self.end != other.end: return self.end > other.end return hash(self) > hash(other) def __ge__(self, other): if self.end != other.end: return self.end >= other.end return hash(self) >= hash(other) def __hash__(self): raise NotImplementedError def __repr__(self): return '[?, %s)' % float(self.end)
[docs]@total_ordering class IntervalWindow(windowed_value._IntervalWindowBase, BoundedWindow): """A window for timestamps in range [start, end). Attributes: start: Start of window as seconds since Unix epoch. end: End of window as seconds since Unix epoch. """ def __lt__(self, other): if self.end != other.end: return self.end < other.end return hash(self) < hash(other)
[docs] def intersects(self, other): # type: (IntervalWindow) -> bool return other.start < self.end or self.start < other.end
[docs] def union(self, other): # type: (IntervalWindow) -> IntervalWindow return IntervalWindow( min(self.start, other.start), max(self.end, other.end))
[docs]@total_ordering class TimestampedValue(object): """A timestamped value having a value and a timestamp. Attributes: value: The underlying value. timestamp: Timestamp associated with the value as seconds since Unix epoch. """ def __init__(self, value, timestamp): # type: (Any, TimestampTypes) -> None self.value = value self.timestamp = Timestamp.of(timestamp) def __eq__(self, other): return ( type(self) == type(other) and self.value == other.value and self.timestamp == other.timestamp) def __hash__(self): return hash((self.value, self.timestamp)) def __lt__(self, other): if type(self) != type(other): return type(self).__name__ < type(other).__name__ if self.value != other.value: return self.value < other.value return self.timestamp < other.timestamp
[docs]class GlobalWindow(BoundedWindow): """The default window into which all data is placed (via GlobalWindows).""" _instance = None # type: GlobalWindow def __new__(cls): if cls._instance is None: cls._instance = super(GlobalWindow, cls).__new__(cls) return cls._instance def __init__(self): # type: () -> None super().__init__(GlobalWindow._getTimestampFromProto()) def __repr__(self): return 'GlobalWindow' def __hash__(self): return hash(type(self)) def __eq__(self, other): # Global windows are always and only equal to each other. return self is other or type(self) is type(other) @property def start(self): # type: () -> Timestamp return MIN_TIMESTAMP @staticmethod def _getTimestampFromProto(): # type: () -> Timestamp ts_millis = int( common_urns.constants.GLOBAL_WINDOW_MAX_TIMESTAMP_MILLIS.constant) return Timestamp(micros=ts_millis * 1000)
[docs]class NonMergingWindowFn(WindowFn):
[docs] def is_merging(self): # type: () -> bool return False
[docs] def merge(self, merge_context): # type: (WindowFn.MergeContext) -> None pass # No merging.
[docs]class GlobalWindows(NonMergingWindowFn): """A windowing function that assigns everything to one global window."""
[docs] @classmethod def windowed_batch( cls, batch, # type: Any timestamp=MIN_TIMESTAMP, # type: Timestamp pane_info=windowed_value.PANE_INFO_UNKNOWN # type: windowed_value.PaneInfo ): # type: (...) -> windowed_value.WindowedBatch return windowed_value.HomogeneousWindowedBatch.of( batch, timestamp, (GlobalWindow(), ), pane_info)
[docs] @classmethod def windowed_value( cls, value, # type: Any timestamp=MIN_TIMESTAMP, # type: Timestamp pane_info=windowed_value.PANE_INFO_UNKNOWN # type: windowed_value.PaneInfo ): # type: (...) -> WindowedValue return WindowedValue(value, timestamp, (GlobalWindow(), ), pane_info)
[docs] @classmethod def windowed_value_at_end_of_window(cls, value): return cls.windowed_value(value, GlobalWindow().max_timestamp())
[docs] def assign(self, assign_context): # type: (WindowFn.AssignContext) -> List[GlobalWindow] return [GlobalWindow()]
[docs] def get_window_coder(self): # type: () -> coders.GlobalWindowCoder return coders.GlobalWindowCoder()
def __hash__(self): return hash(type(self)) def __eq__(self, other): # Global windowfn is always and only equal to each other. return self is other or type(self) is type(other)
[docs] def to_runner_api_parameter(self, context): return common_urns.global_windows.urn, None
[docs] @staticmethod @urns.RunnerApiFn.register_urn(common_urns.global_windows.urn, None) def from_runner_api_parameter(unused_fn_parameter, unused_context): # type: (...) -> GlobalWindows return GlobalWindows()
[docs]class FixedWindows(NonMergingWindowFn): """A windowing function that assigns each element to one time interval. The attributes size and offset determine in what time interval a timestamp will be slotted. The time intervals have the following formula: [N * size + offset, (N + 1) * size + offset) Attributes: size: Size of the window as seconds. offset: Offset of this window as seconds. Windows start at t=N * size + offset where t=0 is the UNIX epoch. The offset must be a value in range [0, size). If it is not it will be normalized to this range. """ def __init__( self, size, # type: DurationTypes offset=0 # type: TimestampTypes ): """Initialize a ``FixedWindows`` function for a given size and offset. Args: size (int): Size of the window in seconds. offset(int): Offset of this window as seconds. Windows start at t=N * size + offset where t=0 is the UNIX epoch. The offset must be a value in range [0, size). If it is not it will be normalized to this range. """ if size <= 0: raise ValueError('The size parameter must be strictly positive.') self.size = Duration.of(size) self.offset = Timestamp.of(offset) % self.size
[docs] def assign(self, context): # type: (WindowFn.AssignContext) -> List[IntervalWindow] timestamp = context.timestamp start = timestamp - (timestamp - self.offset) % self.size return [IntervalWindow(start, start + self.size)]
[docs] def get_window_coder(self): # type: () -> coders.IntervalWindowCoder return coders.IntervalWindowCoder()
def __eq__(self, other): if type(self) == type(other) == FixedWindows: return self.size == other.size and self.offset == other.offset def __hash__(self): return hash((self.size, self.offset))
[docs] def to_runner_api_parameter(self, context): return ( common_urns.fixed_windows.urn, standard_window_fns_pb2.FixedWindowsPayload( size=proto_utils.from_micros( duration_pb2.Duration, self.size.micros), offset=proto_utils.from_micros( timestamp_pb2.Timestamp, self.offset.micros)))
[docs] @staticmethod @urns.RunnerApiFn.register_urn( common_urns.fixed_windows.urn, standard_window_fns_pb2.FixedWindowsPayload) def from_runner_api_parameter(fn_parameter, unused_context): # type: (...) -> FixedWindows return FixedWindows( size=Duration(micros=fn_parameter.size.ToMicroseconds()), offset=Timestamp(micros=fn_parameter.offset.ToMicroseconds()))
[docs]class SlidingWindows(NonMergingWindowFn): """A windowing function that assigns each element to a set of sliding windows. The attributes size and offset determine in what time interval a timestamp will be slotted. The time intervals have the following formula: [N * period + offset, N * period + offset + size) Attributes: size: Size of the window as seconds. period: Period of the windows as seconds. offset: Offset of this window as seconds since Unix epoch. Windows start at t=N * period + offset where t=0 is the epoch. The offset must be a value in range [0, period). If it is not it will be normalized to this range. """ def __init__(self, size, # type: DurationTypes period, # type: DurationTypes offset=0, # type: TimestampTypes ): if size <= 0: raise ValueError('The size parameter must be strictly positive.') self.size = Duration.of(size) self.period = Duration.of(period) self.offset = Timestamp.of(offset) % period
[docs] def assign(self, context): # type: (WindowFn.AssignContext) -> List[IntervalWindow] timestamp = context.timestamp start = timestamp - ((timestamp - self.offset) % self.period) return [ IntervalWindow(Timestamp(micros=s), Timestamp(micros=s) + self.size) for s in range( start.micros, timestamp.micros - self.size.micros, -self.period.micros) ]
[docs] def get_window_coder(self): # type: () -> coders.IntervalWindowCoder return coders.IntervalWindowCoder()
def __eq__(self, other): if type(self) == type(other) == SlidingWindows: return ( self.size == other.size and self.offset == other.offset and self.period == other.period) def __hash__(self): return hash((self.offset, self.period))
[docs] def to_runner_api_parameter(self, context): return ( common_urns.sliding_windows.urn, standard_window_fns_pb2.SlidingWindowsPayload( size=proto_utils.from_micros( duration_pb2.Duration, self.size.micros), offset=proto_utils.from_micros( timestamp_pb2.Timestamp, self.offset.micros), period=proto_utils.from_micros( duration_pb2.Duration, self.period.micros)))
[docs] @staticmethod @urns.RunnerApiFn.register_urn( common_urns.sliding_windows.urn, standard_window_fns_pb2.SlidingWindowsPayload) def from_runner_api_parameter(fn_parameter, unused_context): # type: (...) -> SlidingWindows return SlidingWindows( size=Duration(micros=fn_parameter.size.ToMicroseconds()), offset=Timestamp(micros=fn_parameter.offset.ToMicroseconds()), period=Duration(micros=fn_parameter.period.ToMicroseconds()))
[docs]class Sessions(WindowFn): """A windowing function that groups elements into sessions. A session is defined as a series of consecutive events separated by a specified gap size. Attributes: gap_size: Size of the gap between windows as floating-point seconds. """ def __init__(self, gap_size): # type: (DurationTypes) -> None if gap_size <= 0: raise ValueError('The size parameter must be strictly positive.') self.gap_size = Duration.of(gap_size)
[docs] def assign(self, context): # type: (WindowFn.AssignContext) -> List[IntervalWindow] timestamp = context.timestamp return [IntervalWindow(timestamp, timestamp + self.gap_size)]
[docs] def get_window_coder(self): # type: () -> coders.IntervalWindowCoder return coders.IntervalWindowCoder()
[docs] def merge(self, merge_context): # type: (WindowFn.MergeContext) -> None to_merge = [] # type: List[BoundedWindow] end = MIN_TIMESTAMP for w in sorted(merge_context.windows, key=lambda w: w.start): if to_merge: if end > w.start: to_merge.append(w) if w.end > end: end = w.end else: if len(to_merge) > 1: merge_context.merge( to_merge, IntervalWindow(to_merge[0].start, end)) to_merge = [w] end = w.end else: to_merge = [w] end = w.end if len(to_merge) > 1: merge_context.merge(to_merge, IntervalWindow(to_merge[0].start, end))
def __eq__(self, other): if type(self) == type(other) == Sessions: return self.gap_size == other.gap_size def __hash__(self): return hash(self.gap_size)
[docs] def to_runner_api_parameter(self, context): return ( common_urns.session_windows.urn, standard_window_fns_pb2.SessionWindowsPayload( gap_size=proto_utils.from_micros( duration_pb2.Duration, self.gap_size.micros)))
[docs] @staticmethod @urns.RunnerApiFn.register_urn( common_urns.session_windows.urn, standard_window_fns_pb2.SessionWindowsPayload) def from_runner_api_parameter(fn_parameter, unused_context): # type: (...) -> Sessions return Sessions( gap_size=Duration(micros=fn_parameter.gap_size.ToMicroseconds()))