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# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# limitations under the License.
#
"""Support for user state in the BundleBasedDirectRunner."""
# pytype: skip-file
import copy
import itertools
from apache_beam.transforms import userstate
from apache_beam.transforms.trigger import _ListStateTag
from apache_beam.transforms.trigger import _ReadModifyWriteStateTag
from apache_beam.transforms.trigger import _SetStateTag
[docs]class DirectRuntimeState(userstate.RuntimeState):
def __init__(self, state_spec, state_tag, current_value_accessor):
self._state_spec = state_spec
self._state_tag = state_tag
self._current_value_accessor = current_value_accessor
[docs] @staticmethod
def for_spec(state_spec, state_tag, current_value_accessor):
if isinstance(state_spec, userstate.ReadModifyWriteStateSpec):
return ReadModifyWriteRuntimeState(
state_spec, state_tag, current_value_accessor)
elif isinstance(state_spec, userstate.BagStateSpec):
return BagRuntimeState(state_spec, state_tag, current_value_accessor)
elif isinstance(state_spec, userstate.CombiningValueStateSpec):
return CombiningValueRuntimeState(
state_spec, state_tag, current_value_accessor)
elif isinstance(state_spec, userstate.SetStateSpec):
return SetRuntimeState(state_spec, state_tag, current_value_accessor)
else:
raise ValueError('Invalid state spec: %s' % state_spec)
def _encode(self, value):
return self._state_spec.coder.encode(value)
def _decode(self, value):
return self._state_spec.coder.decode(value)
# Sentinel designating an unread value.
UNREAD_VALUE = object()
[docs]class ReadModifyWriteRuntimeState(DirectRuntimeState,
userstate.ReadModifyWriteRuntimeState):
def __init__(self, state_spec, state_tag, current_value_accessor):
super().__init__(state_spec, state_tag, current_value_accessor)
self._value = UNREAD_VALUE
self._cleared = False
self._modified = False
[docs] def read(self):
if self._cleared:
return None
if self._value is UNREAD_VALUE:
self._value = self._current_value_accessor()
if not self._value:
return None
return self._decode(self._value[0])
[docs] def write(self, value):
self._cleared = False
self._modified = True
self._value = [self._encode(value)]
[docs] def clear(self):
self._cleared = True
self._modified = False
self._value = []
[docs] def is_cleared(self):
return self._cleared
[docs] def is_modified(self):
return self._modified
[docs]class BagRuntimeState(DirectRuntimeState, userstate.BagRuntimeState):
def __init__(self, state_spec, state_tag, current_value_accessor):
super().__init__(state_spec, state_tag, current_value_accessor)
self._cached_value = UNREAD_VALUE
self._cleared = False
self._new_values = []
[docs] def read(self):
if self._cached_value is UNREAD_VALUE:
self._cached_value = self._current_value_accessor()
if not self._cleared:
encoded_values = itertools.chain(self._cached_value, self._new_values)
else:
encoded_values = self._new_values
return (self._decode(v) for v in encoded_values)
[docs] def add(self, value):
self._new_values.append(self._encode(value))
[docs] def clear(self):
self._cleared = True
self._cached_value = []
self._new_values = []
[docs]class SetRuntimeState(DirectRuntimeState, userstate.SetRuntimeState):
def __init__(self, state_spec, state_tag, current_value_accessor):
super().__init__(state_spec, state_tag, current_value_accessor)
self._current_accumulator = UNREAD_VALUE
self._modified = False
def _read_initial_value(self):
if self._current_accumulator is UNREAD_VALUE:
self._current_accumulator = {
self._decode(a)
for a in self._current_value_accessor()
}
[docs] def read(self):
self._read_initial_value()
return self._current_accumulator
[docs] def add(self, value):
self._read_initial_value()
self._modified = True
self._current_accumulator.add(value)
[docs] def clear(self):
self._current_accumulator = set()
self._modified = True
[docs] def is_modified(self):
return self._modified
[docs]class CombiningValueRuntimeState(DirectRuntimeState,
userstate.CombiningValueRuntimeState):
"""Combining value state interface object passed to user code."""
def __init__(self, state_spec, state_tag, current_value_accessor):
super().__init__(state_spec, state_tag, current_value_accessor)
self._current_accumulator = UNREAD_VALUE
self._modified = False
self._combine_fn = copy.deepcopy(state_spec.combine_fn)
self._combine_fn.setup()
self._finalized = False
def _read_initial_value(self):
if self._current_accumulator is UNREAD_VALUE:
existing_accumulators = list(
self._decode(a) for a in self._current_value_accessor())
if existing_accumulators:
self._current_accumulator = self._combine_fn.merge_accumulators(
existing_accumulators)
else:
self._current_accumulator = self._combine_fn.create_accumulator()
[docs] def read(self):
self._read_initial_value()
return self._combine_fn.extract_output(self._current_accumulator)
[docs] def add(self, value):
self._read_initial_value()
self._modified = True
self._current_accumulator = self._combine_fn.add_input(
self._current_accumulator, value)
[docs] def clear(self):
self._modified = True
self._current_accumulator = self._combine_fn.create_accumulator()
[docs] def finalize(self):
if not self._finalized:
self._combine_fn.teardown()
self._finalized = True
[docs]class DirectUserStateContext(userstate.UserStateContext):
"""userstate.UserStateContext for the BundleBasedDirectRunner.
The DirectUserStateContext buffers up updates that are to be committed
by the TransformEvaluator after running a DoFn.
"""
def __init__(self, step_context, dofn, key_coder):
self.step_context = step_context
self.dofn = dofn
self.key_coder = key_coder
self.all_state_specs, self.all_timer_specs = userstate.get_dofn_specs(dofn)
self.state_tags = {}
for state_spec in self.all_state_specs:
state_key = 'user/%s' % state_spec.name
if isinstance(state_spec, userstate.ReadModifyWriteStateSpec):
state_tag = _ReadModifyWriteStateTag(state_key)
elif isinstance(state_spec, userstate.BagStateSpec):
state_tag = _ListStateTag(state_key)
elif isinstance(state_spec, userstate.CombiningValueStateSpec):
state_tag = _ListStateTag(state_key)
elif isinstance(state_spec, userstate.SetStateSpec):
state_tag = _SetStateTag(state_key)
else:
raise ValueError('Invalid state spec: %s' % state_spec)
self.state_tags[state_spec] = state_tag
self.cached_states = {}
self.cached_timers = {}
[docs] def get_timer(
self, timer_spec: userstate.TimerSpec, key, window, timestamp,
pane) -> userstate.RuntimeTimer:
assert timer_spec in self.all_timer_specs
encoded_key = self.key_coder.encode(key)
cache_key = (encoded_key, window, timer_spec)
if cache_key not in self.cached_timers:
self.cached_timers[cache_key] = userstate.RuntimeTimer()
return self.cached_timers[cache_key]
[docs] def get_state(self, state_spec, key, window):
assert state_spec in self.all_state_specs
encoded_key = self.key_coder.encode(key)
cache_key = (encoded_key, window, state_spec)
if cache_key not in self.cached_states:
state_tag = self.state_tags[state_spec]
value_accessor = (
lambda: self._get_underlying_state(state_spec, key, window))
self.cached_states[cache_key] = DirectRuntimeState.for_spec(
state_spec, state_tag, value_accessor)
return self.cached_states[cache_key]
def _get_underlying_state(self, state_spec, key, window):
state_tag = self.state_tags[state_spec]
encoded_key = self.key_coder.encode(key)
return (
self.step_context.get_keyed_state(encoded_key).get_state(
window, state_tag))
[docs] def commit(self):
# Commit state modifications.
for cache_key, runtime_state in self.cached_states.items():
encoded_key, window, state_spec = cache_key
state = self.step_context.get_keyed_state(encoded_key)
state_tag = self.state_tags[state_spec]
if isinstance(state_spec, userstate.BagStateSpec):
if runtime_state._cleared:
state.clear_state(window, state_tag)
for new_value in runtime_state._new_values:
state.add_state(window, state_tag, new_value)
elif isinstance(state_spec, userstate.CombiningValueStateSpec):
if runtime_state._modified:
state.clear_state(window, state_tag)
state.add_state(
window,
state_tag,
state_spec.coder.encode(runtime_state._current_accumulator))
elif isinstance(state_spec, userstate.SetStateSpec):
if runtime_state.is_modified():
state.clear_state(window, state_tag)
for new_value in runtime_state._current_accumulator:
state.add_state(
window, state_tag, state_spec.coder.encode(new_value))
elif isinstance(state_spec, userstate.ReadModifyWriteStateSpec):
if runtime_state.is_cleared():
state.clear_state(window, state_tag)
if runtime_state.is_modified():
state.clear_state(window, state_tag)
state.add_state(window, state_tag, runtime_state._value)
else:
raise ValueError('Invalid state spec: %s' % state_spec)
# Commit new timers.
for cache_key, runtime_timer in self.cached_timers.items():
encoded_key, window, timer_spec = cache_key
state = self.step_context.get_keyed_state(encoded_key)
timer_name = 'user/%s' % timer_spec.name
for dynamic_timer_tag, timer in runtime_timer._timer_recordings.items():
if timer.cleared:
state.clear_timer(
window,
timer_name,
timer_spec.time_domain,
dynamic_timer_tag=dynamic_timer_tag)
if timer.timestamp:
# TODO(ccy): add corresponding watermark holds after the DirectRunner
# allows for keyed watermark holds.
state.set_timer(
window,
timer_name,
timer_spec.time_domain,
timer.timestamp,
dynamic_timer_tag=dynamic_timer_tag)
[docs] def reset(self):
for state in self.cached_states.values():
state.finalize()
self.cached_states = {}
self.cached_timers = {}