#!/usr/bin/env python3
# -*- coding: utf-8 -*-
from abc import ABC, abstractmethod
import time
from basf2 import B2DEBUG, B2ERROR, B2INFO
import multiprocessing
[docs]class Runner(ABC):
"""
Abstract Base Class for Runner type object.
"""
[docs] @abstractmethod
def run(self):
"""
"""
[docs]class AlgorithmsRunner(Runner):
"""
Base class for `AlgorithmsRunner` classes. Defines the necessary information that will be provided to every
`AlgorithmsRunner` used by the `framework.CAF`
An `AlgorithmsRunner` will be given a list of `framework.Algorithm` objects defined during the setup of a
`framework.Calibration` instance. The `AlgorithmsRunner` describes how to run each of the `strategies.AlgorithmStrategy`
objects. As an example, assume that a single `framework.Calibration` was given and list of two `framework.Algorithm`
instances to run.
In this example the chosen :py:meth:`AlgorithmsRunner.run()` is simple and just loops over the list of `caf.framework.Algorithm`
calling each one's :py:meth:`caf.strategies.AlgorithmStrategy.run()` methods in order.
Thereby generating a localdb with the only communication between the `strategies.AlgorithmStrategy` instances coming from the
database payloads being available from one algorithm to the next.
But you could imagine a more complex situation. The `AlgorithmsRunner` might take the first `framework.Algorithm` and
call its `AlgorithmStrategy.run` for only the first (exp,run) in the collected data. Then it might not commit the payloads
to a localdb but instead pass some calculated values to the next algorithm to run on the same IoV. Then it might go back
and re-run the first AlgorithmStrategy with new information and commit payloads this time. Then move onto the next IoV.
Hopefully you can see that while the default provided `AlgorithmsRunner` and `AlgorithmStrategy` classes should be good for
most situations, you have lot of freedom to define your own strategy if needed. By following the basic requirements for the
interface to the `framework.CAF` you can easily plugin a different special case, or mix and match a custom class with
default CAF ones.
The run(self) method should be defined for every derived `AlgorithmsRunner`. It will be called once and only once for each
iteration of (collector -> algorithm).
Input files are automatically given via the `framework.Calibration.output_patterns` which constructs
a list of all files in the collector output directories that match the output_patterns. If you have multiple types of
output data it is your job to filter through the input files and assign them correctly.
A list of local database paths are given to the `AlgorithmsRunner` based on the `framework.Calibration` dependencies and
any overall database chain given to the Calibration before running.
By default you can call the "setup_algorithm" transition of the `caf.state_machines.AlgorithmMachine` to automatically
set a database chain based on this list.
But you have freedom to not call this at all in `run`, or to implement a different method to deal with this.
"""
FAILED = "FAILED"
COMPLETED = "COMPLETED"
def __init__(self, name):
"""
"""
#: The name of this runner instance
self.name = name
#: All of the output files made by the collector job and recovered by the "output_patterns"
self.input_files = []
#: User set databases, can be used to apply your own constants and global tags
self.database_chain = []
#: List of local databases created by previous CAF calibrations/iterations
self.dependent_databases = []
#: The directory of the local database we use to store algorithm payloads from this execution
self.output_database_dir = ""
#: Algorithm results from each algorithm we execute
self.results = {}
#: Final state of runner
self.final_state = None
#: The list of algorithms that this runner executes
self.algorithms = None
#: Output directory of these algorithms, for logging mostly
self.output_dir = ""
[docs]class SeqAlgorithmsRunner(AlgorithmsRunner):
"""
"""
def __init__(self, name):
"""
"""
super().__init__(name)
[docs] def run(self, iov, iteration):
"""
"""
from .strategies import AlgorithmStrategy
B2INFO(f"SequentialAlgorithmsRunner begun for Calibration {self.name}.")
# First we do the setup of algorithm strategies
strategies = []
for algorithm in self.algorithms:
# Need to create an instance of the requested strategy and set the attributes
strategy = algorithm.strategy(algorithm)
# Now add all the necessary parameters for a strategy to run
strategy_params = {}
strategy_params["database_chain"] = self.database_chain
strategy_params["dependent_databases"] = self.dependent_databases
strategy_params["output_dir"] = self.output_dir
strategy_params["output_database_dir"] = self.output_database_dir
strategy_params["input_files"] = self.input_files
strategy_params["ignored_runs"] = self.ignored_runs
strategy.setup_from_dict(strategy_params)
strategies.append(strategy)
# We then fork off a copy of this python process so that we don't affect the original with logging changes
ctx = multiprocessing.get_context("fork")
for strategy in strategies:
queue = multiprocessing.SimpleQueue()
child = ctx.Process(target=SeqAlgorithmsRunner._run_strategy,
args=(strategy, iov, iteration, queue))
self.results[strategy.algorithm.name] = []
B2INFO(f"Starting subprocess of AlgorithmStrategy for {strategy.algorithm.name}.")
B2INFO("Logging will be diverted into algorithm output.")
child.start()
final_state = None
final_loop = False
B2INFO(f"Collecting results for {strategy.algorithm.name}.")
while True:
# Do we have results?
while not queue.empty():
output = queue.get()
B2DEBUG(29, f"Result from queue was {output}")
if output["type"] == "result":
self.results[strategy.algorithm.name].append(output["value"])
elif output["type"] == "final_state":
final_state = output["value"]
else:
raise RunnerError(f"Unknown result output: {output}")
# Still alive but not results at the moment? Wait a few seconds before checking.
if child.is_alive():
time.sleep(5)
continue
else:
# Reached a good ending of strategy
if final_state:
# Check the exitcode for failed Process()
if child.exitcode == 0:
B2INFO(f"AlgorithStrategy subprocess for {strategy.algorithm.name} exited")
break
else:
raise RunnerError(f"Error during subprocess of AlgorithmStrategy for {strategy.algorithm.name}")
# It might be possible that the subprocess has finished but all results weren't gathered yet.
else:
# Go around once more since all results should be in the queue waiting
if not final_loop:
final_loop = True
continue
else:
raise RunnerError((f"Strategy for {strategy.algorithm.name} "
"exited subprocess but without a final state!"))
# Exit early and don't continue strategies as this one failed
if final_state == AlgorithmStrategy.FAILED:
B2ERROR(f"AlgorithmStrategy for {strategy.algorithm.name} failed. We wil not proceed with any more algorithms")
self.final_state = self.FAILED
break
B2DEBUG(29, f"Finished subprocess of AlgorithmStrategy for {strategy.algorithm.name}")
if self.final_state != self.FAILED:
B2INFO(f"SequentialAlgorithmsRunner finished for Calibration {self.name}")
self.final_state = self.COMPLETED
@staticmethod
def _run_strategy(strategy, iov, iteration, queue):
"""Runs the AlgorithmStrategy sends back the results"""
strategy.run(iov, iteration, queue)
# Get the return codes of the algorithm for the IoVs found by the Process
B2INFO(f"Finished Strategy for {strategy.algorithm.name}.")
[docs]class RunnerError(Exception):
"""
Base exception class for Runners
"""