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# The ASF licenses this file to You under the Apache License, Version 2.0
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# http://www.apache.org/licenses/LICENSE-2.0
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#
import math
import time
import apache_beam as beam
from apache_beam.io.restriction_trackers import OffsetRange
from apache_beam.io.restriction_trackers import OffsetRestrictionTracker
from apache_beam.runners import sdf_utils
from apache_beam.transforms import core
from apache_beam.transforms import window
from apache_beam.transforms.ptransform import PTransform
from apache_beam.transforms.window import TimestampedValue
from apache_beam.utils import timestamp
from apache_beam.utils.timestamp import MAX_TIMESTAMP
from apache_beam.utils.timestamp import Timestamp
[docs]class ImpulseSeqGenRestrictionProvider(core.RestrictionProvider):
[docs] def initial_restriction(self, element):
start, end, interval = element
if isinstance(start, Timestamp):
start = start.micros / 1000000
if isinstance(end, Timestamp):
end = end.micros / 1000000
assert start <= end
assert interval > 0
total_outputs = math.ceil((end - start) / interval)
return OffsetRange(0, total_outputs)
[docs] def create_tracker(self, restriction):
return OffsetRestrictionTracker(restriction)
[docs] def restriction_size(self, unused_element, restriction):
return restriction.size()
[docs]class ImpulseSeqGenDoFn(beam.DoFn):
'''
ImpulseSeqGenDoFn fn receives tuple elements with three parts:
* first_timestamp = first timestamp to output element for.
* last_timestamp = last timestamp/time to output element for.
* fire_interval = how often to fire an element.
For each input element received, ImpulseSeqGenDoFn fn will start
generating output elements in following pattern:
* if element timestamp is less than current runtime then output element.
* if element timestamp is greater than current runtime, wait until next
element timestamp.
ImpulseSeqGenDoFn can't guarantee that each element is output at exact time.
ImpulseSeqGenDoFn guarantees that elements would not be output prior to
given runtime timestamp.
'''
[docs] @beam.DoFn.unbounded_per_element()
def process(
self,
element,
restriction_tracker=beam.DoFn.RestrictionParam(
ImpulseSeqGenRestrictionProvider())):
'''
:param element: (start_timestamp, end_timestamp, interval)
:param restriction_tracker:
:return: yields elements at processing real-time intervals with value of
target output timestamp for the element.
'''
start, _, interval = element
if isinstance(start, Timestamp):
start = start.micros / 1000000
assert isinstance(restriction_tracker, sdf_utils.RestrictionTrackerView)
current_output_index = restriction_tracker.current_restriction().start
current_output_timestamp = start + interval * current_output_index
current_time = time.time()
while current_output_timestamp <= current_time:
if restriction_tracker.try_claim(current_output_index):
yield current_output_timestamp
current_output_index += 1
current_output_timestamp = start + interval * current_output_index
current_time = time.time()
else:
return
restriction_tracker.defer_remainder(
timestamp.Timestamp(current_output_timestamp))
[docs]class PeriodicSequence(PTransform):
'''
PeriodicSequence transform receives tuple elements with three parts:
* first_timestamp = first timestamp to output element for.
* last_timestamp = last timestamp/time to output element for.
* fire_interval = how often to fire an element.
For each input element received, PeriodicSequence transform will start
generating output elements in following pattern:
* if element timestamp is less than current runtime then output element.
* if element timestamp is greater than current runtime, wait until next
element timestamp.
PeriodicSequence can't guarantee that each element is output at exact time.
PeriodicSequence guarantees that elements would not be output prior to given
runtime timestamp.
The PCollection generated by PeriodicSequence is unbounded.
'''
def __init__(self):
pass
[docs] def expand(self, pcoll):
return (
pcoll
| 'GenSequence' >> beam.ParDo(ImpulseSeqGenDoFn())
| 'MapToTimestamped' >> beam.Map(lambda tt: TimestampedValue(tt, tt)))
[docs]class PeriodicImpulse(PTransform):
'''
PeriodicImpulse transform generates an infinite sequence of elements with
given runtime interval.
PeriodicImpulse transform behaves same as {@link PeriodicSequence} transform,
but can be used as first transform in pipeline.
The PCollection generated by PeriodicImpulse is unbounded.
'''
def __init__(
self,
start_timestamp=Timestamp.now(),
stop_timestamp=MAX_TIMESTAMP,
fire_interval=360.0,
apply_windowing=False):
'''
:param start_timestamp: Timestamp for first element.
:param stop_timestamp: Timestamp after which no elements will be output.
:param fire_interval: Interval at which to output elements.
:param apply_windowing: Whether each element should be assigned to
individual window. If false, all elements will reside in global window.
'''
self.start_ts = start_timestamp
self.stop_ts = stop_timestamp
self.interval = fire_interval
self.apply_windowing = apply_windowing
[docs] def expand(self, pbegin):
result = (
pbegin
| 'ImpulseElement' >> beam.Create(
[(self.start_ts, self.stop_ts, self.interval)])
| 'GenSequence' >> beam.ParDo(ImpulseSeqGenDoFn())
| 'MapToTimestamped' >> beam.Map(lambda tt: TimestampedValue(tt, tt)))
if self.apply_windowing:
result = result | 'ApplyWindowing' >> beam.WindowInto(
window.FixedWindows(self.interval))
return result