本文整理汇总了Python中gc3libs.workflow.SequentialTaskCollection.__init__方法的典型用法代码示例。如果您正苦于以下问题:Python SequentialTaskCollection.__init__方法的具体用法?Python SequentialTaskCollection.__init__怎么用?Python SequentialTaskCollection.__init__使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类gc3libs.workflow.SequentialTaskCollection
的用法示例。
在下文中一共展示了SequentialTaskCollection.__init__方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, grayscaled_image, output_dir, output_file,
colors, warhol_dir, **extra_args):
self.grayscaled_image = grayscaled_image
self.output_dir = output_dir
self.warhol_dir = warhol_dir
self.jobname = 'TricolorizeImage'
self.output_file = output_file
if not os.path.isdir(output_dir):
os.mkdir(output_dir)
self.extra_args = extra_args
gc3libs.log.info(
"Tricolorize image %s to %s" % (
self.grayscaled_image, self.output_file))
self.tasks = [
CreateLutApplication(
self.grayscaled_image,
"%s.miff" % self.grayscaled_image,
self.output_dir,
colors, self.warhol_dir, **extra_args),
]
SequentialTaskCollection.__init__(self, self.tasks)
示例2: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, paraFolder, substs, solverParas, **sessionParas):
logger.debug("entering gParaSearchDriver.__init__")
self.jobname = sessionParas["jobname"] + "driver"
solverParas["jobname"] = self.jobname
self.sessionParas = sessionParas
self.solverParas = solverParas
self.substs = substs
self.paraFolder = paraFolder
self.iter = 0
# create a subfolder for optim over xVar
self.optimFolder = os.path.join(paraFolder, "optim" + str(solverParas["xVars"][0]))
self.solverParas["optimFolder"] = self.optimFolder
gc3libs.utils.mkdir(self.optimFolder)
self.costlyOptimizer = costlyOptimization.costlyOptimization(solverParas)
self.xVars = solverParas["xVars"]
self.xParaCombos = solverParas["xInitialParaCombo"]
self.targetVars = solverParas["targetVars"]
self.target_fx = solverParas["target_fx"]
self.evaluator = idRiskParaSearchParallel(
self.xVars, self.xParaCombos, substs, self.optimFolder, solverParas, **sessionParas
)
initial_task = self.evaluator
SequentialTaskCollection.__init__(self, self.jobname, [initial_task])
logger.debug("done solveParaCombination.__init__")
示例3: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, paraFolder, substs, solverParas, **sessionParas):
logger.debug('entering gParaSearchDriver.__init__')
self.jobname = sessionParas['jobname'] + 'driver'
solverParas['jobname'] = self.jobname
self.sessionParas = sessionParas
self.solverParas = solverParas
self.substs = substs
self.paraFolder = paraFolder
self.iter = 0
# create a subfolder for optim over xVar
self.optimFolder = os.path.join(paraFolder, 'optim' + str(solverParas['xVars'][0]))
gc3libs.utils.mkdir(self.optimFolder)
self.costlyOptimizer = costlyOptimization.costlyOptimization(solverParas)
self.xVars = solverParas['xVars']
self.xParaCombos = solverParas['xInitialParaCombo']
self.targetVars = solverParas['targetVars']
self.target_fx = solverParas['target_fx']
self.evaluator = idRiskParaSearchParallel(self.xVars, self.xParaCombos, substs, self.optimFolder, solverParas , **sessionParas)
initial_task = self.evaluator
SequentialTaskCollection.__init__(self, self.jobname, [initial_task])
logger.debug('done solveParaCombination.__init__')
示例4: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, init_value, add_value, iterations, **extra_args):
"""
Create a new tasks that runs `executable` over a set of values
(initially given by `initial_values_file`, then the output of
a run is fed as input to the next one), riterating the process
`total_iterations` times.
If `slice_size` is a positive integer, then chop the input into
chunks of -at most- the given size and compute them as separate
independent jobs.
Extra keyword arguments are saved and passed down to construct
the `ValueFunctionIterationApplication`.
"""
self.init = init_value
self.increment = add_value
self.limit = iterations
self.jobname = "Gdemo_Iteration"
gc3libs.log.info("Calling DemoIteration.__init__() ... ")
# create initial task and register it
initial_task = GdemoApplication(self.init, self.increment, 0)
SequentialTaskCollection.__init__(self, [initial_task], **extra_args)
示例5: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, name, experiment_id, verbosity,
submission_id, user_name, parent_id, description=None,
waiting_time=0):
'''
Parameters
----------
name: str
name of the stage
experiment_id: int
ID of the processed experiment
verbosity: int
logging verbosity index
submission_id: int
ID of the corresponding submission
user_name: str
name of the submitting user
parent_id: int
ID of the parent
:class:`Workflow <tmlib.workflow.workflow.Workflow>`
description: tmlib.tmaps.description.WorkflowStageDescription, optional
description of the stage (default: ``None``)
waiting_time: int, optional
time in seconds that should be waited upon transition from one
stage to the other to avoid issues related to network file systems
(default: ``0``)
'''
SequentialTaskCollection.__init__(
self, tasks=None, jobname='%s' % name
)
WorkflowStage.__init__(
self, name=name, experiment_id=experiment_id, verbosity=verbosity,
submission_id=submission_id, description=description,
user_name=user_name, parent_id=parent_id
)
self.waiting_time = waiting_time
示例6: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, videofile, email_from, smtp_server, **extra):
self.videofile = videofile
videofilename = os.path.basename(videofile)
inboxdir = os.path.dirname(videofile)
self.vdescrfile = os.path.join(inboxdir, 'video.description.txt')
self.inboxdir = inboxdir
self.email_to = ''
self.email_from = email_from
self.smtp_server = smtp_server
self.video_is_needed = True
# Look for a 'configuration' file in the inboxdir to override
# bemovi parameters
videoname = videofilename.rsplit('.', 1)[0]
self.extra = extra
extra['jobname'] = 'BemoviWorkflow_%s' % videoname
extra['videoname'] = videoname
extra['base_output_dir'] = os.path.join(
inboxdir + '.out',
extra['jobname'])
self.update_configuration()
plocator = ParticleLocator(videofile, **extra)
plinker = ParticleLinker(
os.path.join(extra['base_output_dir'],
ParticleLocator.application,
extra['videoname'] + '.ijout.txt',),
**extra)
SequentialTaskCollection.__init__(self, [plocator, plinker], **extra)
示例7: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, joke, **kwargs):
self.joke = joke
gc3libs.log.info("\t\t\t\tCalling InnerSequentialFlow.__init__ for joke: {}".format(self.joke))
self.job_name = joke
initial_task = B(joke)
SequentialTaskCollection.__init__(self, [initial_task], **kwargs)
示例8: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, name, ABC_UML_IMAGE, output, g3cfile, dimensions, fortran_pes, inputfilelist_abc, **extra_args):
self.inputfilelist_abc = inputfilelist_abc
self.output_folder = output
self.extra_args = extra_args
self.name = name
# first step --> __init__ source compiling
first_task = Gfit3C_ABC_uml_Application(abc_uml_image_file=ABC_UML_IMAGE, output_folder=output, g3c_input_file=g3cfile, dimension_file=dimensions, surface_file=fortran_pes, **extra_args)
SequentialTaskCollection.__init__(self, name, [first_task])
示例9: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, param_value, input_file_name, output_folder, iteration, **extra_args):
gc3libs.log.info("\t\t\t\tCalling InnerSequentialIterationB.__init__ for param [%d] and file [%s]" % (param_value, input_file_name))
self.param_value = param_value
self.input_file = input_file_name
self.output_folder = output_folder
self.jobname = "Gdemo_InnerSequenceB_"+str(self.param_value)
initial_task = XtandemApplicationB(param_value, input_file_name, output_folder, iteration)
SequentialTaskCollection.__init__(self, [initial_task], **extra_args)
示例10: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, executable, initial_values_file,
total_iterations, slice_size=0,
output_dir=TMPDIR, **extra_args):
"""
Create a new task that runs `executable` over a set of values
(initially given by `initial_values_file`, then the output of
a run is fed as input to the next one), iterating the process
`total_iterations` times.
If `slice_size` is a positive integer, then chop the input into
chunks of -at most- the given size and compute them as separate
independent jobs.
Extra keyword arguments are saved and passed down to construct
the `ValueFunctionIterationApplication`.
"""
assert slice_size >= 0, \
"Argument `slice_size` to ValueFunctionIteration.__init__" \
" must be a non-negative integer."
# remember values for later use
self.executable = executable
self.initial_values = initial_values_file
self.total_iterations = total_iterations - 1
self.slice_size = slice_size
self.datadir = output_dir
self.extra = extra_args
# count initial values
if os.path.exists(initial_values_file):
f = open(initial_values_file, 'r')
self.num_input_values = gc3libs.utils.count(f, lambda _: True)
f.close()
else:
# XXX: there's no good default value!
self.num_input_values = 0
# this little piece of black magic is to ensure intermediate
# filenames appear numerically sorted in `ls -l` output
self.values_filename_fmt = ('values.%%0%dd.txt'
% (1 + int(math.log10(total_iterations))))
self.jobname = extra_args.get('jobname',
gc3libs.utils.basename_sans(initial_values_file))
# create initial task and register it
initial_task = ValueFunctionIterationPass(executable, initial_values_file,
0, total_iterations, slice_size,
self.datadir, self.extra,
parent=self.jobname)
SequentialTaskCollection.__init__(self, self.jobname, [initial_task])
示例11: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, input_bam_folder, **extra_args):
self.gatkseq = extra_args['gatk_sequence']
self.S0_output = extra_args['S0_output']
self.S1_output = extra_args['S1_output']
self.input_bam_folder = input_bam_folder
self.name = os.path.basename(input_bam_folder)
self.extra = extra_args
self.output_dir = extra_args['output_dir']
self.jobname = "GATK-" + "_".join(self.gatkseq)
# Get the first stage task in gatk_sequence
initial_task_fn = getattr(self, "stage%d" % int(self.gatkseq.pop(0)))
initial_task = initial_task_fn()
SequentialTaskCollection.__init__(self, [initial_task])
示例12: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, input_image, copies, ncolors, size=None, **extra_args):
"""XXX do we need input_image and output_image? I guess so?"""
self.input_image = input_image
self.output_image = "warhol_%s" % os.path.basename(input_image)
self.resize = False
gc3libs.log.info(
"Producing a warholized version of input file %s " "and store it in %s" % (input_image, self.output_image)
)
if size:
x, y = size.split("x", 2)
rows = math.sqrt(copies)
self.resize = "%dx%d" % (int(x) / rows, int(y) / rows)
self.output_dir = os.path.relpath(extra_args.get("output_dir"))
self.ncolors = ncolors
self.copies = copies
# Check that copies is a perfect square
if math.sqrt(self.copies) != int(math.sqrt(self.copies)):
raise gc3libs.exceptions.InvalidArgument("`copies` argument must be a perfect square.")
self.jobname = extra_args.get("jobname", "WarholizedWorkflow")
self.grayscaled_image = "grayscaled_%s" % os.path.basename(self.input_image)
# This is just parsing of the arguments. The last lines, instead,
# create the initial tasks that will be submitted. By now, we can submit
# only the first one, `GrayScaleConvertApplication`, which will produce
# a grayscale image from the input file::
self.extra_args = extra_args.copy()
self.extra_args.pop("output_dir")
self.tasks = [
GrayScaleConvertApplication(
self.input_image,
self.grayscaled_image,
self.output_dir,
self.output_dir,
resize=self.resize,
**self.extra_args
)
]
SequentialTaskCollection.__init__(self, self.tasks)
示例13: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, **kwargs):
config = kwargs["config"]
self.kwargs = kwargs
gc3libs.log.info(
"\t Calling MainSequentialFlow.__init({})".format("<No parameters>"))
self.initial_tasks = []
if config["file_preparation"]["activated"] == 'True':
self.initial_tasks = [
FilePreparation(
name="file_preparation",
**kwargs)]
else:
self.initial_tasks = [SequencewiseParallelFlow(**kwargs)]
SequentialTaskCollection.__init__(self, self.initial_tasks, **kwargs)
示例14: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, substs, solverParas, **sessionParas):
logger.debug('entering solveParaCombination.__init__ for job %s' % sessionParas['jobname'])
self.iter = 0
self.jobname = 'solverParacombination' + sessionParas['jobname']
self.substs = substs
self.sessionParas = sessionParas
self.pathToExecutable = sessionParas['pathToExecutable']
self.architecture = sessionParas['architecture']
self.localBaseDir = sessionParas['localBaseDir']
self.paraFolder = os.path.join(os.getcwd(), sessionParas['jobname'])
self.wBarLower_task = idRiskParaSearchDriver(self.paraFolder, self.substs, solverParas, **sessionParas)
SequentialTaskCollection.__init__(self, self.jobname, [self.wBarLower_task])
logger.debug('done gParaSearchDriver.__init__ for job %s' % sessionParas['jobname'])
示例15: __init__
# 需要导入模块: from gc3libs.workflow import SequentialTaskCollection [as 别名]
# 或者: from gc3libs.workflow.SequentialTaskCollection import __init__ [as 别名]
def __init__(self, jobname='', path_to_stage_dir='',
opt_algorithm=None, task_constructor=None,
extract_value_fn=(lambda app: app.value),
cur_pop_file = '',
**extra_args):
gc3libs.log.debug('entering ParallelDriver.__init__')
# Set up initial variables and set the correct methods.
self.jobname = jobname
self.path_to_stage_dir = path_to_stage_dir
self.opt_algorithm = opt_algorithm
self.extract_value_fn = extract_value_fn
self.task_constructor = task_constructor
self.cur_pop_file = cur_pop_file
self.extra_args = extra_args
self.new_pop = self.opt_algorithm.pop
initial_task = ComputeTargetVals(
self.opt_algorithm.pop, self.jobname, self.opt_algorithm.cur_iter,
path_to_stage_dir, self.cur_pop_file, task_constructor)
SequentialTaskCollection.__init__(self, [initial_task], **extra_args)