/usr/lib/python3/dist-packages/celery/bin/graph.py is in python3-celery 4.1.0-2ubuntu1.
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"""The :program:`celery graph` command.
.. program:: celery graph
"""
from __future__ import absolute_import, unicode_literals
from operator import itemgetter
from celery.five import items, python_2_unicode_compatible
from celery.utils.graph import DependencyGraph, GraphFormatter
from .base import Command
__all__ = ['graph']
class graph(Command):
"""The ``celery graph`` command."""
args = """<TYPE> [arguments]
..... bootsteps [worker] [consumer]
..... workers [enumerate]
"""
def run(self, what=None, *args, **kwargs):
map = {'bootsteps': self.bootsteps, 'workers': self.workers}
if not what:
raise self.UsageError('missing type')
elif what not in map:
raise self.Error('no graph {0} in {1}'.format(what, '|'.join(map)))
return map[what](*args, **kwargs)
def bootsteps(self, *args, **kwargs):
worker = self.app.WorkController()
include = {arg.lower() for arg in args or ['worker', 'consumer']}
if 'worker' in include:
worker_graph = worker.blueprint.graph
if 'consumer' in include:
worker.blueprint.connect_with(worker.consumer.blueprint)
else:
worker_graph = worker.consumer.blueprint.graph
worker_graph.to_dot(self.stdout)
def workers(self, *args, **kwargs):
def simplearg(arg):
return maybe_list(itemgetter(0, 2)(arg.partition(':')))
def maybe_list(l, sep=','):
return (l[0], l[1].split(sep) if sep in l[1] else l[1])
args = dict(simplearg(arg) for arg in args)
generic = 'generic' in args
def generic_label(node):
return '{0} ({1}://)'.format(type(node).__name__,
node._label.split('://')[0])
@python_2_unicode_compatible
class Node(object):
force_label = None
scheme = {}
def __init__(self, label, pos=None):
self._label = label
self.pos = pos
def label(self):
return self._label
def __str__(self):
return self.label()
class Thread(Node):
scheme = {
'fillcolor': 'lightcyan4',
'fontcolor': 'yellow',
'shape': 'oval',
'fontsize': 10,
'width': 0.3,
'color': 'black',
}
def __init__(self, label, **kwargs):
self.real_label = label
super(Thread, self).__init__(
label='thr-{0}'.format(next(tids)),
pos=0,
)
class Formatter(GraphFormatter):
def label(self, obj):
return obj and obj.label()
def node(self, obj):
scheme = dict(obj.scheme) if obj.pos else obj.scheme
if isinstance(obj, Thread):
scheme['label'] = obj.real_label
return self.draw_node(
obj, dict(self.node_scheme, **scheme),
)
def terminal_node(self, obj):
return self.draw_node(
obj, dict(self.term_scheme, **obj.scheme),
)
def edge(self, a, b, **attrs):
if isinstance(a, Thread):
attrs.update(arrowhead='none', arrowtail='tee')
return self.draw_edge(a, b, self.edge_scheme, attrs)
def subscript(n):
S = {'0': '₀', '1': '₁', '2': '₂', '3': '₃', '4': '₄',
'5': '₅', '6': '₆', '7': '₇', '8': '₈', '9': '₉'}
return ''.join([S[i] for i in str(n)])
class Worker(Node):
pass
class Backend(Node):
scheme = {
'shape': 'folder',
'width': 2,
'height': 1,
'color': 'black',
'fillcolor': 'peachpuff3',
}
def label(self):
return generic_label(self) if generic else self._label
class Broker(Node):
scheme = {
'shape': 'circle',
'fillcolor': 'cadetblue3',
'color': 'cadetblue4',
'height': 1,
}
def label(self):
return generic_label(self) if generic else self._label
from itertools import count
tids = count(1)
Wmax = int(args.get('wmax', 4) or 0)
Tmax = int(args.get('tmax', 3) or 0)
def maybe_abbr(l, name, max=Wmax):
size = len(l)
abbr = max and size > max
if 'enumerate' in args:
l = ['{0}{1}'.format(name, subscript(i + 1))
for i, obj in enumerate(l)]
if abbr:
l = l[0:max - 1] + [l[size - 1]]
l[max - 2] = '{0}⎨…{1}⎬'.format(
name[0], subscript(size - (max - 1)))
return l
try:
workers = args['nodes']
threads = args.get('threads') or []
except KeyError:
replies = self.app.control.inspect().stats() or {}
workers, threads = [], []
for worker, reply in items(replies):
workers.append(worker)
threads.append(reply['pool']['max-concurrency'])
wlen = len(workers)
backend = args.get('backend', self.app.conf.result_backend)
threads_for = {}
workers = maybe_abbr(workers, 'Worker')
if Wmax and wlen > Wmax:
threads = threads[0:3] + [threads[-1]]
for i, threads in enumerate(threads):
threads_for[workers[i]] = maybe_abbr(
list(range(int(threads))), 'P', Tmax,
)
broker = Broker(args.get(
'broker', self.app.connection_for_read().as_uri()))
backend = Backend(backend) if backend else None
deps = DependencyGraph(formatter=Formatter())
deps.add_arc(broker)
if backend:
deps.add_arc(backend)
curworker = [0]
for i, worker in enumerate(workers):
worker = Worker(worker, pos=i)
deps.add_arc(worker)
deps.add_edge(worker, broker)
if backend:
deps.add_edge(worker, backend)
threads = threads_for.get(worker._label)
if threads:
for thread in threads:
thread = Thread(thread)
deps.add_arc(thread)
deps.add_edge(thread, worker)
curworker[0] += 1
deps.to_dot(self.stdout)
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