mirror of
https://github.com/esphome/esphome.git
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254 lines
9.1 KiB
Python
254 lines
9.1 KiB
Python
"""
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ESPHome's coroutine system.
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The Problem: When running the code generationg, components can depend on variables being registered.
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For example, an i2c-based sensor would need the i2c bus component to first be declared before the
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codegen can emit code using that variable (or otherwise the C++ won't compile).
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ESPHome's codegen system solves this by using coroutine-like methods. When a component depends on
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a variable, it waits for it to be registered using `await cg.get_variable()`. If the variable
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hasn't been registered yet, control will be yielded back to another component until the variable
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is registered. This leads to a topological sort, solving the dependency problem.
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Importantly, ESPHome only uses the coroutine *syntax*, no actual asyncio event loop is running in
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the background. This is so that we can ensure the order of execution is constant for the same
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YAML configuration, thus main.cpp only has to be recompiled if the configuration actually changes.
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There are two syntaxes for ESPHome coroutines ("old style" vs "new style" coroutines).
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"new style" - This is very much like coroutines you might be used to:
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```py
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async def my_coroutine(config):
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var = await cg.get_variable(config[CONF_ID])
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await some_other_coroutine(xyz)
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return var
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```
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new style coroutines are `async def` methods that use `await` to await the result of another coroutine,
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and can return values using a `return` statement.
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"old style" - This was a hack for when ESPHome still had to run on python 2, but is still compatible
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```py
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@coroutine
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def my_coroutine(config):
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var = yield cg.get_variable(config[CONF_ID])
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yield some_other_coroutine(xyz)
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yield var
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```
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Here everything is combined in `yield` expressions. You await other coroutines using `yield` and
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the last `yield` expression defines what is returned.
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"""
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import collections
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import functools
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import heapq
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import inspect
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import logging
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import types
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from typing import Any, Callable
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from collections.abc import Awaitable, Generator, Iterator
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_LOGGER = logging.getLogger(__name__)
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def coroutine(func: Callable[..., Any]) -> Callable[..., Awaitable[Any]]:
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"""Decorator to apply to methods to convert them to ESPHome coroutines."""
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if getattr(func, "_esphome_coroutine", False):
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# If func is already a coroutine, do not re-wrap it (performance)
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return func
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if inspect.isasyncgenfunction(func):
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# Trade-off: In ESPHome, there's not really a use-case for async generators.
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# and during the transition to new-style syntax it will happen that a `yield`
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# is not replaced properly, so don't accept async generators.
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raise ValueError(
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f"Async generator functions are not allowed. "
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f"Please check whether you've replaced all yields with awaits/returns. "
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f"See {func} in {func.__module__}"
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)
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if inspect.iscoroutinefunction(func):
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# A new-style async-def coroutine function, no conversion needed.
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return func
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if inspect.isgeneratorfunction(func):
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@functools.wraps(func)
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def coro(*args, **kwargs):
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gen = func(*args, **kwargs)
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ret = yield from _flatten_generator(gen)
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return ret
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else:
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# A "normal" function with no `yield` statements, convert to generator
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# that includes a yield just so it's also a generator function
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@functools.wraps(func)
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def coro(*args, **kwargs):
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res = func(*args, **kwargs)
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yield
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return res
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# Add coroutine internal python flag so that it can be awaited from new-style coroutines.
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coro = types.coroutine(coro)
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# pylint: disable=protected-access
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coro._esphome_coroutine = True
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return coro
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def coroutine_with_priority(priority: float):
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"""Decorator to apply to functions to convert them to ESPHome coroutines.
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:param priority: priority with which to schedule the coroutine, higher priorities run first.
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"""
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def decorator(func):
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coro = coroutine(func)
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coro.priority = priority
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return coro
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return decorator
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def _flatten_generator(gen: Generator[Any, Any, Any]):
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to_send = None
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while True:
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try:
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# Run until next yield expression
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val = gen.send(to_send)
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except StopIteration as e:
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# return statement or end of function
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# From py3.3, return with a value is allowed in generators,
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# and return value is transported in the value field of the exception.
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# If we find a value in the exception, use that as the return value,
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# otherwise use the value from the last yield statement ("old style")
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ret = to_send if e.value is None else e.value
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return ret
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if isinstance(val, collections.abc.Awaitable):
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# yielded object that is awaitable (like `yield some_new_style_method()`)
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# yield from __await__() like actual coroutines would.
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to_send = yield from val.__await__()
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elif inspect.isgenerator(val):
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# Old style, like `yield cg.get_variable()`
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to_send = yield from _flatten_generator(val)
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else:
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# Could be the last expression from this generator, record this as the return value
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to_send = val
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# perform a yield so that expressions like `while some_condition(): yield None`
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# do not run without yielding control back to the top
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yield
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class FakeAwaitable:
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"""Convert a generator to an awaitable object.
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Needed for internals of `cg.get_variable`. There we can't use @coroutine because
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native coroutines await from types.coroutine() directly without yielding back control to the top
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(likely as a performance enhancement).
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If we instead wrap the generator in this FakeAwaitable, control is yielded back to the top
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(reason unknown).
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"""
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def __init__(self, gen: Generator[Any, Any, Any]) -> None:
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self._gen = gen
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def __await__(self):
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ret = yield from self._gen
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return ret
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@functools.total_ordering
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class _Task:
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def __init__(
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self,
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priority: float,
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id_number: int,
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iterator: Iterator[None],
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original_function: Any,
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):
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self.priority = priority
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self.id_number = id_number
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self.iterator = iterator
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self.original_function = original_function
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def with_priority(self, priority: float) -> "_Task":
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return _Task(priority, self.id_number, self.iterator, self.original_function)
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@property
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def _cmp_tuple(self) -> tuple[float, int]:
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return (-self.priority, self.id_number)
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def __eq__(self, other):
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return self._cmp_tuple == other._cmp_tuple
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def __ne__(self, other):
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return not (self == other)
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def __lt__(self, other):
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return self._cmp_tuple < other._cmp_tuple
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class FakeEventLoop:
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"""Emulate an asyncio EventLoop to run some registered coroutine jobs in sequence."""
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def __init__(self):
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self._pending_tasks: list[_Task] = []
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self._task_counter = 0
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def add_job(self, func, *args, **kwargs):
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"""Add a job to the task queue,
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Optionally retrieves priority from the function object, and schedules according to that.
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"""
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if inspect.iscoroutine(func):
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raise ValueError("Can only add coroutine functions, not coroutine objects")
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if inspect.iscoroutinefunction(func):
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coro = func
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gen = coro(*args, **kwargs).__await__()
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else:
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coro = coroutine(func)
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gen = coro(*args, **kwargs)
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prio = getattr(coro, "priority", 0.0)
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task = _Task(prio, self._task_counter, gen, func)
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self._task_counter += 1
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heapq.heappush(self._pending_tasks, task)
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def flush_tasks(self):
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"""Run until all tasks have been completed.
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:raises RuntimeError: if a deadlock is detected.
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"""
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i = 0
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while self._pending_tasks:
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i += 1
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if i > 1000000:
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# Detect deadlock/circular dependency by measuring how many times tasks have been
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# executed. On the big tests/test1.yaml we only get to a fraction of this, so
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# this shouldn't be a problem.
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raise RuntimeError(
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"Circular dependency detected! "
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"Please run with -v option to see what functions failed to "
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"complete."
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)
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task: _Task = heapq.heappop(self._pending_tasks)
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_LOGGER.debug(
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"Running %s in %s (num %s)",
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task.original_function.__qualname__,
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task.original_function.__module__,
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task.id_number,
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)
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try:
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next(task.iterator)
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# Decrease priority over time, so that if this task is blocked
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# due to a dependency others will clear the dependency
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# This could be improved with a less naive approach
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new_task = task.with_priority(task.priority - 1)
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heapq.heappush(self._pending_tasks, new_task)
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except StopIteration:
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_LOGGER.debug(" -> finished")
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