197 lines
5.4 KiB
Python
197 lines
5.4 KiB
Python
# Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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"""An example main file running the algorithms.
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Part of the Chrome build flags optimization.
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An example use of the framework. It parses the input json configuration file.
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Then it initiates the variables of the generation. Finally, it sets up the
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processes for different modules and runs the experiment.
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"""
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__author__ = 'yuhenglong@google.com (Yuheng Long)'
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import json
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import multiprocessing
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from optparse import OptionParser
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import sys
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import flags
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from genetic_algorithm import GAGeneration
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from pipeline_process import PipelineProcess
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import pipeline_worker
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from steering import Steering
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from task import BUILD_STAGE
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from task import Task
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from task import TEST_STAGE
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import testing_batch
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parser = OptionParser()
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parser.add_option('-f',
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'--file',
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dest='filename',
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help='configuration file FILE input',
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metavar='FILE')
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# The meta data for the genetic algorithm.
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BUILD_CMD = 'BUILD_CMD'
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TEST_CMD = 'TEST_CMD'
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OUTPUT = 'OUTPUT'
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DEFAULT_OUTPUT = 'output'
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CONF = 'CONF'
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DEFAULT_CONF = 'conf'
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NUM_BUILDER = 'NUM_BUILDER'
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DEFAULT_NUM_BUILDER = 1
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NUM_TESTER = 'NUM_TESTER'
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DEFAULT_NUM_TESTER = 1
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STOP_THRESHOLD = 'STOP_THRESHOLD'
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DEFAULT_STOP_THRESHOLD = 1
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NUM_CHROMOSOMES = 'NUM_CHROMOSOMES'
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DEFAULT_NUM_CHROMOSOMES = 20
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NUM_TRIALS = 'NUM_TRIALS'
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DEFAULT_NUM_TRIALS = 20
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MUTATION_RATE = 'MUTATION_RATE'
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DEFAULT_MUTATION_RATE = 0.01
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def _ProcessGA(meta_data):
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"""Set up the meta data for the genetic algorithm.
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Args:
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meta_data: the meta data for the genetic algorithm.
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"""
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assert BUILD_CMD in meta_data
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build_cmd = meta_data[BUILD_CMD]
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assert TEST_CMD in meta_data
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test_cmd = meta_data[TEST_CMD]
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if OUTPUT not in meta_data:
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output_file = DEFAULT_OUTPUT
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else:
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output_file = meta_data[OUTPUT]
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if CONF not in meta_data:
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conf_file = DEFAULT_CONF
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else:
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conf_file = meta_data[CONF]
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if NUM_BUILDER not in meta_data:
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num_builders = DEFAULT_NUM_BUILDER
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else:
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num_builders = meta_data[NUM_BUILDER]
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if NUM_TESTER not in meta_data:
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num_testers = DEFAULT_NUM_TESTER
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else:
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num_testers = meta_data[NUM_TESTER]
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if STOP_THRESHOLD not in meta_data:
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stop_threshold = DEFAULT_STOP_THRESHOLD
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else:
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stop_threshold = meta_data[STOP_THRESHOLD]
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if NUM_CHROMOSOMES not in meta_data:
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num_chromosomes = DEFAULT_NUM_CHROMOSOMES
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else:
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num_chromosomes = meta_data[NUM_CHROMOSOMES]
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if NUM_TRIALS not in meta_data:
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num_trials = DEFAULT_NUM_TRIALS
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else:
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num_trials = meta_data[NUM_TRIALS]
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if MUTATION_RATE not in meta_data:
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mutation_rate = DEFAULT_MUTATION_RATE
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else:
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mutation_rate = meta_data[MUTATION_RATE]
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specs = flags.ReadConf(conf_file)
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# Initiate the build/test command and the log directory.
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Task.InitLogCommand(build_cmd, test_cmd, output_file)
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# Initiate the build/test command and the log directory.
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GAGeneration.InitMetaData(stop_threshold, num_chromosomes, num_trials, specs,
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mutation_rate)
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# Generate the initial generations.
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generation_tasks = testing_batch.GenerateRandomGATasks(specs, num_chromosomes,
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num_trials)
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generations = [GAGeneration(generation_tasks, set([]), 0)]
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# Execute the experiment.
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_StartExperiment(num_builders, num_testers, generations)
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def _ParseJson(file_name):
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"""Parse the input json file.
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Parse the input json file and call the proper function to perform the
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algorithms.
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Args:
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file_name: the input json file name.
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"""
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experiments = json.load(open(file_name))
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for experiment in experiments:
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if experiment == 'GA':
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# An GA experiment
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_ProcessGA(experiments[experiment])
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def _StartExperiment(num_builders, num_testers, generations):
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"""Set up the experiment environment and execute the framework.
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Args:
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num_builders: number of concurrent builders.
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num_testers: number of concurrent testers.
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generations: the initial generation for the framework.
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"""
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manager = multiprocessing.Manager()
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# The queue between the steering algorithm and the builder.
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steering_build = manager.Queue()
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# The queue between the builder and the tester.
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build_test = manager.Queue()
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# The queue between the tester and the steering algorithm.
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test_steering = manager.Queue()
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# Set up the processes for the builder, tester and steering algorithm module.
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build_process = PipelineProcess(num_builders, 'builder', {}, BUILD_STAGE,
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steering_build, pipeline_worker.Helper,
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pipeline_worker.Worker, build_test)
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test_process = PipelineProcess(num_testers, 'tester', {}, TEST_STAGE,
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build_test, pipeline_worker.Helper,
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pipeline_worker.Worker, test_steering)
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steer_process = multiprocessing.Process(
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target=Steering,
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args=(set([]), generations, test_steering, steering_build))
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# Start the processes.
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build_process.start()
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test_process.start()
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steer_process.start()
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# Wait for the processes to finish.
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build_process.join()
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test_process.join()
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steer_process.join()
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def main(argv):
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(options, _) = parser.parse_args(argv)
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assert options.filename
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_ParseJson(options.filename)
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if __name__ == '__main__':
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main(sys.argv)
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